/*===================== begin_copyright_notice ==================================

# Copyright (c) 2022, Intel Corporation

# Permission is hereby granted, free of charge, to any person obtaining a
# copy of this software and associated documentation files (the "Software"),
# to deal in the Software without restriction, including without limitation
# the rights to use, copy, modify, merge, publish, distribute, sublicense,
# and/or sell copies of the Software, and to permit persons to whom the
# Software is furnished to do so, subject to the following conditions:

# The above copyright notice and this permission notice shall be included
# in all copies or substantial portions of the Software.

# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
# OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
# THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR
# OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
# ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
# OTHER DEALINGS IN THE SOFTWARE.

======================= end_copyright_notice ==================================*/
//!
//! \file     mhw_vdbox_vdenc_hwcmd_xe_lpm_plus.h
//! \brief    Auto-generated constructors for MHW and states.
//! \details  This file may not be included outside of Xe_LPM_plus as other components
//!           should use MHW interface to interact with MHW commands and states.
//!

#ifndef __MHW_VDBOX_VDENC_HWCMD_XE_LPM_PLUS_H__
#define __MHW_VDBOX_VDENC_HWCMD_XE_LPM_PLUS_H__

#include "mhw_hwcmd.h"

#pragma once
#pragma pack(1)

namespace mhw
{
namespace vdbox
{
namespace vdenc
{
namespace xe_lpm_plus_base
{
namespace v0
{

struct _VDENC_CMD1_CMD
{
    union
    {
        struct
        {
            uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
            uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
            uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
            uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
            uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
            uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
            uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
        };
        uint32_t Value;
    } DW0;
    union
    {
        //!< DWORD 1
        struct
        {
            uint32_t VDENC_CMD1_DW1_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW1_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW1_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW1_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW1;
    union
    {
        //!< DWORD 2
        struct
        {
            uint32_t VDENC_CMD1_DW2_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW2_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW2_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW2_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW2;
    union
    {
        //!< DWORD 3
        struct
        {
            uint32_t VDENC_CMD1_DW3_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW3_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW3_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW3_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW3;
    union
    {
        //!< DWORD 4
        struct
        {
            uint32_t VDENC_CMD1_DW4_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW4_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW4_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW4_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW4;
    union
    {
        //!< DWORD 5
        struct
        {
            uint32_t VDENC_CMD1_DW5_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW5_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW5_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW5_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW5;
    union
    {
        //!< DWORD 6
        struct
        {
            uint32_t VDENC_CMD1_DW6_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW6_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW6_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW6_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW6;
    union
    {
        //!< DWORD 7
        struct
        {
            uint32_t VDENC_CMD1_DW7_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW7_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW7_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW7_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW7;
    union
    {
        //!< DWORD 8
        struct
        {
            uint32_t VDENC_CMD1_DW8_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW8_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW8_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW8_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW8;
    union
    {
        //!< DWORD 9
        struct
        {
            uint32_t VDENC_CMD1_DW9_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW9_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW9_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW9_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW9;
    union
    {
        //!< DWORD 10
        struct
        {
            uint32_t VDENC_CMD1_DW10_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW10_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW10_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW10_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW10;
    union
    {
        //!< DWORD 11
        struct
        {
            uint32_t VDENC_CMD1_DW11_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW11_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW11_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW11_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW11;
    union
    {
        //!< DWORD 12
        struct
        {
            uint32_t VDENC_CMD1_DW12_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW12_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW12_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW12_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW12;
    union
    {
        //!< DWORD 13
        struct
        {
            uint32_t VDENC_CMD1_DW13_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW13_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW13_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW13_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW13;
    union
    {
        //!< DWORD 14
        struct
        {
            uint32_t VDENC_CMD1_DW14_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW14_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW14_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW14_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW14;
    union
    {
        //!< DWORD 15
        struct
        {
            uint32_t VDENC_CMD1_DW15_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW15_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW15_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW15_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW15;
    union
    {
        //!< DWORD 16
        struct
        {
            uint32_t VDENC_CMD1_DW16_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW16_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW16_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW16_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW16;
    union
    {
        //!< DWORD 17
        struct
        {
            uint32_t VDENC_CMD1_DW17_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW17_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW17_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW17_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW17;
    union
    {
        //!< DWORD 18
        struct
        {
            uint32_t VDENC_CMD1_DW18_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW18_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW18_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW18_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW18;
    union
    {
        //!< DWORD 19
        struct
        {
            uint32_t VDENC_CMD1_DW19_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW19_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW19_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW19_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW19;
    union
    {
        //!< DWORD 20
        struct
        {
            uint32_t VDENC_CMD1_DW20_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW20_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW20_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW20_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW20;
    union
    {
        //!< DWORD 21
        struct
        {
            uint32_t VDENC_CMD1_DW21_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW21_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW21_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW21_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW21;
    union
    {
        //!< DWORD 22
        struct
        {
            uint32_t VDENC_CMD1_DW22_BIT0 : __CODEGEN_BITFIELD(0, 15);
            uint32_t VDENC_CMD1_DW22_BIT16 : __CODEGEN_BITFIELD(16, 24);
            uint32_t VDENC_CMD1_DW22_BIT25 : __CODEGEN_BITFIELD(25, 31);
        };
        uint32_t Value;
    } DW22;
    union
    {
        //!< DWORD 23
        struct
        {
            uint32_t VDENC_CMD1_DW23_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW23_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW23_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW23_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW23;
    union
    {
        //!< DWORD 24
        struct
        {
            uint32_t VDENC_CMD1_DW24_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW24_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW24_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW24_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW24;
    union
    {
        //!< DWORD 25
        struct
        {
            uint32_t VDENC_CMD1_DW25_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW25_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW25_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW25_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW25;
    union
    {
        //!< DWORD 26
        struct
        {
            uint32_t VDENC_CMD1_DW26_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW26_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW26_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW26_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW26;
    union
    {
        //!< DWORD 27
        struct
        {
            uint32_t VDENC_CMD1_DW27_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW27_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW27_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW27_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW27;
    union
    {
        //!< DWORD 28
        struct
        {
            uint32_t VDENC_CMD1_DW28_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW28_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW28_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW28_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW28;
    union
    {
        //!< DWORD 29
        struct
        {
            uint32_t VDENC_CMD1_DW29_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW29_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW29_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW29_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW29;
    union
    {
        //!< DWORD 30
        struct
        {
            uint32_t VDENC_CMD1_DW30_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW30_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW30_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW30_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW30;
    union
    {
        struct
        {
            uint32_t VDENC_CMD1_DW31_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW31_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW31_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW31_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW31;
    union
    {
        struct
        {
            uint32_t VDENC_CMD1_DW32_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD1_DW32_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD1_DW32_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD1_DW32_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW32;

    //! \name Local enumerations

    enum SUBOPB
    {
        SUBOPB_VDENCCMD1CMD = 10,  //!< No additional details
    };

    enum SUBOPA
    {
        SUBOPA_UNNAMED0 = 0,  //!< No additional details
    };

    enum OPCODE
    {
        OPCODE_VDENCPIPE = 1,  //!< No additional details
    };

    enum PIPELINE
    {
        PIPELINE_MFXCOMMON = 2,  //!< No additional details
    };

    enum COMMAND_TYPE
    {
        COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
    };

    //! \name Initializations

    //! \brief Explicit member initialization function
    _VDENC_CMD1_CMD()
    {
        MOS_ZeroMemory(this, sizeof(*this));

        DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
        DW0.Subopb      = SUBOPB_VDENCCMD1CMD;
        DW0.Subopa      = SUBOPA_UNNAMED0;
        DW0.Opcode      = OPCODE_VDENCPIPE;
        DW0.Pipeline    = PIPELINE_MFXCOMMON;
        DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
    }

    static const size_t dwSize   = 33;
    static const size_t byteSize = 132;
};

struct _VDENC_CMD3_CMD
{
    union
    {
        struct
        {
            uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
            uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
            uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
            uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
            uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
            uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
            uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
        };
        uint32_t Value;
    } DW0;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW1_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW1_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW1_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW1_BIT24 : __CODEGEN_BITFIELD(24, 31);

            uint32_t VDENC_CMD3_DW2_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW2_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW2_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW2_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value[2];
    } DW1_2;
    uint8_t VDENC_CMD3_DW3_5[12];
    uint8_t VDENC_CMD3_DW6_8[12];
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW9;
        };
        uint32_t Value;
    } DW9;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW10_BIT0 : __CODEGEN_BITFIELD(0, 15);
            uint32_t VDENC_CMD3_DW10_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW10_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW10;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW11;
        };
        uint32_t Value;
    } DW11;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW12_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW12_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW12_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW12_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW12;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW13_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW13_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW13_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW13_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW13;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW14_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW14_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW14_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW14_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW14;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW15_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW15_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW15_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW15_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW15;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW16_BIT0 : __CODEGEN_BITFIELD(0, 15);
            uint32_t VDENC_CMD3_DW16_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW16_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW16;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW17_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW17_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW17_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW17_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW17;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW18;
        };
        uint32_t Value;
    } DW18;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW19_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW19_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW19_BIT16 : __CODEGEN_BITFIELD(16, 23);
            uint32_t VDENC_CMD3_DW19_BIT24 : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW19;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW20_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW20_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW20_BIT16 : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW20;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW21_BIT0 : __CODEGEN_BITFIELD(0, 7);
            uint32_t VDENC_CMD3_DW21_BIT8 : __CODEGEN_BITFIELD(8, 15);
            uint32_t VDENC_CMD3_DW21_BIT16 : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW21;
    union
    {
        struct
        {
            uint32_t VDENC_CMD3_DW22_BIT0 : __CODEGEN_BITFIELD(0, 15);
            uint32_t VDENC_CMD3_DW22_BIT16 : __CODEGEN_BITFIELD(16, 24);
            uint32_t VDENC_CMD3_DW22_BIT25 : __CODEGEN_BITFIELD(25, 31);
        };
        uint32_t Value;
    } DW22;

    //! \name Initializations

    //! \brief Explicit member initialization function
    _VDENC_CMD3_CMD()
    {
        MOS_ZeroMemory(this, sizeof(*this));

        DW0.Value = 0x708a0015;
    }

    static const size_t dwSize   = 23;
    static const size_t byteSize = 92;
};

#ifdef IGFX_VDENC_INTERFACE_EXT_SUPPORT
#include "mhw_vdbox_vdenc_hwcmd_xe_lpm_plus_ext.h"
#else
struct _VDENC_CMD2_CMD
{
    union
    {
        //!< DWORD 0
        struct
        {
            uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWord Length
            uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
            uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
            uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
            uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
            uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
            uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
        };
        uint32_t Value;
    } DW0;
    union
    {
        //!< DWORD 1
        struct
        {
            uint32_t FrameWidthInPixelsMinusOne : __CODEGEN_BITFIELD(0, 15);    //!< FrameWidthInPixelsMinusOne
            uint32_t FrameHeightInPixelsMinusOne : __CODEGEN_BITFIELD(16, 31);  //!< FrameHeightInPixelsMinusOne
        };
        uint32_t Value;
    } DW1;
    union
    {
        //!< DWORD 2
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 19);
            uint32_t PictureType : __CODEGEN_BITFIELD(20, 21);               //!< Picture Type
            uint32_t TemporalMvpEnableFlag : __CODEGEN_BITFIELD(22, 22);     //!< TemporalMvpEnableFlag
            uint32_t Collocatedfroml0Flag : __CODEGEN_BITFIELD(23, 23);      //!< CollocatedFromL0Flag
            uint32_t LongTermReferenceFlagsL0 : __CODEGEN_BITFIELD(24, 26);  //!< LongTermReferenceFlags_L0
            uint32_t LongTermReferenceFlagsL1 : __CODEGEN_BITFIELD(27, 27);  //!< LongTermReferenceFlags_L1
            uint32_t : __CODEGEN_BITFIELD(28, 29);
            uint32_t TransformSkip : __CODEGEN_BITFIELD(30, 30);             //!< TransformSkip
            uint32_t ConstrainedIntraPredFlag : __CODEGEN_BITFIELD(31, 31);  //!< ConstrainedIntraPredFlag
        };
        uint32_t Value;
    } DW2;
    union
    {
        //!< DWORD 3
        struct
        {
            uint32_t FwdPocNumberForRefid0InL0 : __CODEGEN_BITFIELD(0, 7);   //!< FWD_POC_NUMBER_FOR_REFID_0_IN_L0
            uint32_t BwdPocNumberForRefid0InL1 : __CODEGEN_BITFIELD(8, 15);  //!< BWD_POC_NUMBER_FOR_REFID_0_IN_L1
            uint32_t PocNumberForRefid1InL0 : __CODEGEN_BITFIELD(16, 23);    //!< POC_NUMBER_FOR_REFID_1_IN_L0
            uint32_t PocNumberForRefid1InL1 : __CODEGEN_BITFIELD(24, 31);    //!< POC_NUMBER_FOR_REFID_1_IN_L1
        };
        uint32_t Value;
    } DW3;
    union
    {
        //!< DWORD 4
        struct
        {
            uint32_t PocNumberForRefid2InL0 : __CODEGEN_BITFIELD(0, 7);    //!< FWD_POC_NUMBER_FOR_REFID_2_IN_L0
            uint32_t PocNumberForRefid2InL1 : __CODEGEN_BITFIELD(8, 15);   //!< BWD_POC_NUMBER_FOR_REFID_2_IN_L1
            uint32_t PocNumberForRefid3InL0 : __CODEGEN_BITFIELD(16, 23);  //!< POC_NUMBER_FOR_REFID_3_IN_L0
            uint32_t PocNumberForRefid3InL1 : __CODEGEN_BITFIELD(24, 31);  //!< POC_NUMBER_FOR_REFID_3_IN_L1
        };
        uint32_t Value;
    } DW4;
    union
    {
        //!< DWORD 5
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 7);
            uint32_t StreaminRoiEnable : __CODEGEN_BITFIELD(8, 8);  //!< StreamIn ROI Enable
            uint32_t : __CODEGEN_BITFIELD(9, 9);
            uint32_t SubPelMode : __CODEGEN_BITFIELD(10, 11);  //!< SubPelMode
            uint32_t : __CODEGEN_BITFIELD(12, 23);
            uint32_t NumRefIdxL0Minus1 : __CODEGEN_BITFIELD(24, 27);  //!< NumRefIdxL0_minus1
            uint32_t NumRefIdxL1Minus1 : __CODEGEN_BITFIELD(28, 31);  //!< NumRefIdxL1_minus1
        };
        uint32_t Value;
    } DW5;
    union
    {
        //!< DWORD 6
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW6;
    union
    {
        //!< DWORD 7
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 3);
            uint32_t SegmentationEnable : __CODEGEN_BITFIELD(4, 4);                       //!< Segmentation Enable
            uint32_t SegmentationMapTemporalPredictionEnable : __CODEGEN_BITFIELD(5, 5);  //!< Segmentation map temporal prediction enable
            uint32_t : __CODEGEN_BITFIELD(6, 6);
            uint32_t TilingEnable : __CODEGEN_BITFIELD(7, 7);  //!< Tiling enable
            uint32_t : __CODEGEN_BITFIELD(8, 8);
            uint32_t VdencStreamInEnable : __CODEGEN_BITFIELD(9, 9);  //!< VDENC Stream IN
            uint32_t : __CODEGEN_BITFIELD(10, 15);
            uint32_t PakOnlyMultiPassEnable : __CODEGEN_BITFIELD(16, 16);  //!< PAK-Only Multi-Pass Enable
            uint32_t : __CODEGEN_BITFIELD(17, 31);
        };
        uint32_t Value;
    } DW7;
    union
    {
        //!< DWORD 8
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW8;
    union
    {
        //!< DWORD 9
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW9;
    union
    {
        //!< DWORD 10
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW10;
    union
    {
        //!< DWORD 11
        struct
        {
            uint32_t FwdRef0RefPic : __CODEGEN_BITFIELD(0, 2);
            uint32_t : __CODEGEN_BITFIELD(3, 7);
            uint32_t FwdRef1RefPic : __CODEGEN_BITFIELD(8, 10);
            uint32_t : __CODEGEN_BITFIELD(11, 15);
            uint32_t FwdRef2RefPic : __CODEGEN_BITFIELD(16, 18);
            uint32_t : __CODEGEN_BITFIELD(19, 23);
            uint32_t BwdRef0RefPic : __CODEGEN_BITFIELD(24, 26);
            uint32_t : __CODEGEN_BITFIELD(27, 31);
        };
        uint32_t Value;
    } DW11;
    union
    {
        //!< DWORD 12
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW12;
    union
    {
        //!< DWORD 13
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW13;
    union
    {
        //!< DWORD 14
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW14;
    union
    {
        //!< DWORD 15
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW15;
    union
    {
        //!< DWORD 16
        struct
        {
            uint32_t MinQp : __CODEGEN_BITFIELD(0, 7);   //!< MINQP
            uint32_t MaxQp : __CODEGEN_BITFIELD(8, 15);  //!< MAXQP
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW16;
    union
    {
        //!< DWORD 17
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 19);
            uint32_t TemporalMVEnableForIntegerSearch : __CODEGEN_BITFIELD(20, 20);  //!< Setting this bit enables Temporal MV Enable for Integer search
            uint32_t : __CODEGEN_BITFIELD(21, 31);
        };
        uint32_t Value;
    } DW17;
    union
    {
        //!< DWORD 18
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW18;
    union
    {
        //!< DWORD 19
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW19;
    union
    {
        //!< DWORD 20
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW20;
    union
    {
        //!< DWORD 21
        struct
        {
            uint32_t IntraRefreshPos : __CODEGEN_BITFIELD(0, 8);               //!< IntraRefreshPos
            uint32_t : __CODEGEN_BITFIELD(9, 15);
            uint32_t IntraRefreshMBSizeMinusOne : __CODEGEN_BITFIELD(16, 23);  //!< IntraRefreshMBSizeMinusOne
            uint32_t IntraRefreshMode : __CODEGEN_BITFIELD(24, 24);            //!< IntraRefreshMode
            uint32_t IntraRefreshEnable : __CODEGEN_BITFIELD(25, 25);          //!< IntraRefreshEnable (Rolling I Enable)
            uint32_t : __CODEGEN_BITFIELD(26, 27);
            uint32_t QpAdjustmentForRollingI : __CODEGEN_BITFIELD(28, 31);     //!< QP_ADJUSTMENT_FOR_ROLLING_I
        };
        uint32_t Value;
    } DW21;
    union
    {
        //!< DWORD 22
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW22;
    union
    {
        //!< DWORD 23
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW23;
    union
    {
        //!< DWORD 24
        struct
        {
            uint32_t QpForSeg0 : __CODEGEN_BITFIELD(0, 7);    //!< QP for Seg0
            uint32_t QpForSeg1 : __CODEGEN_BITFIELD(8, 15);   //!< QP for Seg1
            uint32_t QpForSeg2 : __CODEGEN_BITFIELD(16, 23);  //!< QP for Seg2
            uint32_t QpForSeg3 : __CODEGEN_BITFIELD(24, 31);  //!< QP for Seg3
        };
        uint32_t Value;
    } DW24;
    union
    {
        //!< DWORD 25
        struct
        {
            uint32_t QpForSeg4 : __CODEGEN_BITFIELD(0, 7);    //!< QP for Seg4
            uint32_t QpForSeg5 : __CODEGEN_BITFIELD(8, 15);   //!< QP for Seg5
            uint32_t QpForSeg6 : __CODEGEN_BITFIELD(16, 23);  //!< QP for Seg6
            uint32_t QpForSeg7 : __CODEGEN_BITFIELD(24, 31);  //!< QP for Seg7
        };
        uint32_t Value;
    } DW25;
    union
    {
        //!< DWORD 26
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 24);
            uint32_t Vp9DynamicSliceEnable : __CODEGEN_BITFIELD(25, 25);  //!< VP9 Dynamic slice enable
            uint32_t : __CODEGEN_BITFIELD(26, 31);
        };
        uint32_t Value;
    } DW26;
    union
    {
        //!< DWORD 27
        struct
        {
            uint32_t QpPrimeYDc : __CODEGEN_BITFIELD(0, 7);   //!< QPPRIMEY_DC
            uint32_t QpPrimeYAc : __CODEGEN_BITFIELD(8, 15);  //!< QPPRIMEY_AC
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW27;
    union
    {
        //!< DWORD 28
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW28;
    union
    {
        //!< DWORD 29
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW29;
    union
    {
        //!< DWORD 30
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW30;
    union
    {
        //!< DWORD 31
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW31;
    union
    {
        //!< DWORD 32
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW32;
    union
    {
        //!< DWORD 33
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW33;
    union
    {
        //!< DWORD 34
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW34;
    union
    {
        //!< DWORD 35
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW35;
    union
    {
        //!< DWORD 36
        struct
        {
            uint32_t IntraRefreshBoundaryRef0 : __CODEGEN_BITFIELD(0, 8);    //!< IntraRefreshBoundary Ref0
            uint32_t : __CODEGEN_BITFIELD(9, 9);
            uint32_t IntraRefreshBoundaryRef1 : __CODEGEN_BITFIELD(10, 18);  //!< IntraRefreshBoundary Ref1
            uint32_t : __CODEGEN_BITFIELD(19, 19);
            uint32_t IntraRefreshBoundaryRef2 : __CODEGEN_BITFIELD(20, 28);  //!< IntraRefreshBoundary Ref2
            uint32_t : __CODEGEN_BITFIELD(29, 31);
        };
        uint32_t Value;
    } DW36;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW37;
    union
    {
        //!< DWORD 38
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW38;
    union
    {
        //!< DWORD 39
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW39;
    union
    {
        //!< DWORD 40
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW40;
    union
    {
        //!< DWORD 41
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW41;
    union
    {
        //!< DWORD 42
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW42;
    union
    {
        //!< DWORD 43
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW43;
    union
    {
        //!< DWORD 44
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW44;
    union
    {
        //!< DWORD 45
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW45;
    union
    {
        //!< DWORD 46
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW46;
    union
    {
        //!< DWORD 47
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW47;
    union
    {
        //!< DWORD 48
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW48;
    union
    {
        //!< DWORD 49
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW49;
    union
    {
        //!< DWORD 50
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW50;
    union
    {
        //!< DWORD 51
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW51;
    union
    {
        //!< DWORD 52
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW52;
    union
    {
        //!< DWORD 53
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW53;
    union
    {
        //!< DWORD 54
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW54;
    union
    {
        //!< DWORD 55
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW55;
    union
    {
        //!< DWORD 56
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW56;
    union
    {
        //!< DWORD 57
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW57;
    union
    {
        //!< DWORD 58
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW58;
    union
    {
        //!< DWORD 59
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW59;
    union
    {
        //!< DWORD 60
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW60;
    union
    {
        //!< DWORD 61
        struct
        {
            uint32_t Av1L0RefID0 : __CODEGEN_BITFIELD(0, 3);
            uint32_t Av1L1RefID0 : __CODEGEN_BITFIELD(4, 7);
            uint32_t Av1L0RefID1 : __CODEGEN_BITFIELD(8, 11);
            uint32_t Av1L1RefID1 : __CODEGEN_BITFIELD(12, 15);
            uint32_t Av1L0RefID2 : __CODEGEN_BITFIELD(16, 19);
            uint32_t Av1L1RefID2 : __CODEGEN_BITFIELD(20, 23);
            uint32_t Av1L0RefID3 : __CODEGEN_BITFIELD(24, 27);
            uint32_t Av1L1RefID3 : __CODEGEN_BITFIELD(28, 31);
        };
        uint32_t Value;
    } DW61;
    //! \name Local enumerations

    enum SUBOPB
    {
        SUBOPB_VDENCCMD2CMD = 9,  //!< No additional details
    };

    enum SUBOPA
    {
        SUBOPA_UNNAMED0 = 0,  //!< No additional details
    };

    enum OPCODE
    {
        OPCODE_VDENCPIPE = 1,  //!< No additional details
    };

    enum PIPELINE
    {
        PIPELINE_MFXCOMMON = 2,  //!< No additional details
    };

    enum COMMAND_TYPE
    {
        COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
    };

    //! \name Initializations

    //! \brief Explicit member initialization function
    _VDENC_CMD2_CMD()
    {
        MOS_ZeroMemory(this, sizeof(*this));

        DW0.Value       = 0;
        DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
        DW0.Subopb      = SUBOPB_VDENCCMD2CMD;
        DW0.Subopa      = SUBOPA_UNNAMED0;
        DW0.Opcode      = OPCODE_VDENCPIPE;
        DW0.Pipeline    = PIPELINE_MFXCOMMON;
        DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
    }

    static const size_t dwSize   = 62;
    static const size_t byteSize = 248;
};
struct _VDENC_AVC_IMG_STATE_CMD
{
    union
    {
        struct
        {
            uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
            uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
            uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
            uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
            uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
            uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
            uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
        };
        uint32_t Value;
    } DW0;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 1);
            uint32_t PictureType : __CODEGEN_BITFIELD(2, 3);
            uint32_t Transform8X8Flag : __CODEGEN_BITFIELD(4, 4);
            uint32_t colloc_mv_wr_en : __CODEGEN_BITFIELD(5, 5);
            uint32_t SubpelMode : __CODEGEN_BITFIELD(6, 7);
            uint32_t : __CODEGEN_BITFIELD(8, 31);
        };
        uint32_t Value;
    } DW1;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 12);
            uint32_t colloc_mv_rd_en : __CODEGEN_BITFIELD(13, 13);
            uint32_t : __CODEGEN_BITFIELD(14, 17);
            uint32_t BidirectionalWeight : __CODEGEN_BITFIELD(18, 23);
            uint32_t : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW2;
    union
    {
        struct
        {
            uint32_t PictureHeightMinusOne : __CODEGEN_BITFIELD(0, 7);
            uint32_t : __CODEGEN_BITFIELD(8,  15);
            uint32_t PictureWidth : __CODEGEN_BITFIELD(16, 24);
            uint32_t : __CODEGEN_BITFIELD(25, 31);
        };
        uint32_t Value;
    } DW3;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW4;
    union
    {
        struct
        {
            uint32_t FwdRefIdx0ReferencePicture : __CODEGEN_BITFIELD(0, 3);
            uint32_t BwdRefIdx0ReferencePicture : __CODEGEN_BITFIELD(4, 7);
            uint32_t FwdRefIdx1ReferencePicture : __CODEGEN_BITFIELD(8, 11);
            uint32_t : __CODEGEN_BITFIELD(12, 15);
            uint32_t FwdRefIdx2ReferencePicture : __CODEGEN_BITFIELD(16, 19);
            uint32_t NumberOfL0ReferencesMinusOne : __CODEGEN_BITFIELD(20, 23);
            uint32_t NumberOfL1ReferencesMinusOne : __CODEGEN_BITFIELD(24, 26);
            uint32_t : __CODEGEN_BITFIELD(27, 31);
        };
        uint32_t Value;
    } DW5;
    union
    {
        struct
        {
            uint32_t IntraRefreshMbPos : __CODEGEN_BITFIELD(0, 7);
            uint32_t IntraRefreshMbSizeMinusOne : __CODEGEN_BITFIELD(8, 15);
            uint32_t IntraRefreshEnableRollingIEnable : __CODEGEN_BITFIELD(16, 16);
            uint32_t IntraRefreshMode : __CODEGEN_BITFIELD(17, 17);
            uint32_t : __CODEGEN_BITFIELD(18, 23);
            uint32_t QpAdjustmentForRollingI : __CODEGEN_BITFIELD(24, 31);
        };
        uint32_t Value;
    } DW6;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW7;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW8;
    union
    {
        struct
        {
            uint32_t RoiQpAdjustmentForZone0 : __CODEGEN_BITFIELD(0, 3);
            uint32_t RoiQpAdjustmentForZone1 : __CODEGEN_BITFIELD(4, 7);
            uint32_t RoiQpAdjustmentForZone2 : __CODEGEN_BITFIELD(8, 11);
            uint32_t RoiQpAdjustmentForZone3 : __CODEGEN_BITFIELD(12, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW9;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW10;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW11;
    union
    {
        struct
        {
            uint32_t MinQp : __CODEGEN_BITFIELD(0, 7);
            uint32_t MaxQp : __CODEGEN_BITFIELD(8, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 28);
            uint32_t NumBframesBetweenFwdAndBwd : __CODEGEN_BITFIELD(29, 30);
            uint32_t : __CODEGEN_BITFIELD(31, 31);
        };
        uint32_t Value;
    } DW12;
    union
    {
        struct
        {
            uint32_t RoiEnable : __CODEGEN_BITFIELD(0, 0);
            uint32_t : __CODEGEN_BITFIELD(1, 2);
            uint32_t MbLevelQpEnable : __CODEGEN_BITFIELD(3, 3);
            uint32_t : __CODEGEN_BITFIELD(4, 4);
            uint32_t MbLevelDeltaQpEnable : __CODEGEN_BITFIELD(5, 5);
            uint32_t : __CODEGEN_BITFIELD(6, 9);
            uint32_t LongtermReferenceFrameBwdRef0Indicator : __CODEGEN_BITFIELD(10, 10);
            uint32_t : __CODEGEN_BITFIELD(11, 31);
        };
        uint32_t Value;
    } DW13;
    union
    {
        struct
        {
            uint32_t QpPrimeY : __CODEGEN_BITFIELD(0, 7);
            uint32_t : __CODEGEN_BITFIELD(8, 18);
            uint32_t TrellisQuantEn : __CODEGEN_BITFIELD(19, 19);
            uint32_t : __CODEGEN_BITFIELD(20, 31);
        };
        uint32_t Value;
    } DW14;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 7);
            uint32_t PocNumberForCurrentPicture : __CODEGEN_BITFIELD(8, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW15;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 7);
            uint32_t PocNumberForFwdRef0 : __CODEGEN_BITFIELD(8, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW16;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 7);
            uint32_t PocNumberForFwdRef1 : __CODEGEN_BITFIELD(8, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW17;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 7);
            uint32_t PocNumberForFwdRef2 : __CODEGEN_BITFIELD(8, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW18;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 7);
            uint32_t PocNumberForBwdRef0 : __CODEGEN_BITFIELD(8, 15);
            uint32_t : __CODEGEN_BITFIELD(16, 31);
        };
        uint32_t Value;
    } DW19;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW20;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW21;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW22;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW23;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW24;
    union
    {
        struct
        {
            uint32_t : __CODEGEN_BITFIELD(0, 31);
        };
        uint32_t Value;
    } DW25;

    //! \name Initializations

    //! \brief Explicit member initialization function
    _VDENC_AVC_IMG_STATE_CMD()
    {
        MOS_ZeroMemory(this, sizeof(*this));

        DW0.Value                                        = 0x70850018;

        DW1.Value                                        = 0x00000000;

        DW2.Value                                        = 0x00000000;

        DW3.Value                                        = 0x00000000;

        DW4.Value                                        = 0x00000000;

        DW5.Value                                        = 0x00000000;

        DW6.Value                                        = 0x00000000;

        DW7.Value                                        = 0x00000000;

        DW8.Value                                        = 0x00000000;

        DW9.Value                                        = 0x00000000;

        DW10.Value                                       = 0x00000000;

        DW11.Value                                       = 0x00000000;

        DW12.Value                                       = 0x00000000;

        DW13.Value                                       = 0x00000000;

        DW14.Value                                       = 0x00000000;

        DW15.Value                                       = 0x00000000;

        DW16.Value                                       = 0x00000000;

        DW17.Value                                       = 0x00000000;

        DW18.Value                                       = 0x00000000;

        DW19.Value                                       = 0x00000000;

        DW20.Value                                       = 0x00000000;

        DW21.Value                                       = 0x00000000;

        DW22.Value                                       = 0x33000000;

        DW23.Value                                       = 0x00000000;

        DW24.Value                                       = 0x00000000;

        DW25.Value                                       = 0x00000000;
    }

    static const size_t dwSize   = 26;
    static const size_t byteSize = 104;
};
#endif

struct Cmd
{
public:
    //!
    //! \brief VDENC_64B_Aligned_Lower_Address
    //! \details
    //!
    //!
    struct VDENC_64B_Aligned_Lower_Address_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t Reserved0 : __CODEGEN_BITFIELD(0, 5);  //!< Reserved
                uint32_t Address : __CODEGEN_BITFIELD(6, 31);   //!< Address
            };
            uint32_t Value;
        } DW0;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_64B_Aligned_Lower_Address_CMD()
        {
            DW0.Value = 0;
        }

        static const size_t dwSize   = 1;
        static const size_t byteSize = 4;
    };

    //!
    //! \brief VDENC_64B_Aligned_Upper_Address
    //! \details
    //!
    //!
    struct VDENC_64B_Aligned_Upper_Address_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t AddressUpperDword : __CODEGEN_BITFIELD(0, 15);  //!< Address Upper DWord
                uint32_t Reserved16 : __CODEGEN_BITFIELD(16, 31);        //!< Reserved
            };
            uint32_t Value;
        } DW0;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_64B_Aligned_Upper_Address_CMD()
        {
            DW0.Value = 0;
        }

        static const size_t dwSize   = 1;
        static const size_t byteSize = 4;
    };

    //!
    //! \brief VDENC_Surface_Control_Bits
    //! \details
    //!
    //!
    struct VDENC_Surface_Control_Bits_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t VDENC_Surface_Control_Bits_DW0_BIT0 : __CODEGEN_BITFIELD(0, 0); //!<
                uint32_t MemoryObjectControlState : __CODEGEN_BITFIELD(1, 6);            //!< Index to Memory Object Control State (MOCS) Tables:
                uint32_t ArbitrationPriorityControl : __CODEGEN_BITFIELD(7, 8);          //!< ARBITRATION_PRIORITY_CONTROL
                uint32_t MemoryCompressionEnable : __CODEGEN_BITFIELD(9, 9);             //!< MEMORY_COMPRESSION_ENABLE
                uint32_t CompressionType : __CODEGEN_BITFIELD(10, 10);                   //!< Compression Type
                uint32_t Reserved11 : __CODEGEN_BITFIELD(11, 11);                        //!< Reserved
                uint32_t CacheSelect : __CODEGEN_BITFIELD(12, 12);                       //!< CACHE_SELECT
                uint32_t Reserved13 : __CODEGEN_BITFIELD(13, 14);                        //!< Reserved
                uint32_t Reserved15 : __CODEGEN_BITFIELD(15, 15);                        //!< Reserved
                uint32_t CompressionFormat : __CODEGEN_BITFIELD(16, 20);                 //!< Compression Format
                uint32_t Reserved21 : __CODEGEN_BITFIELD(21, 31);                        //!< Reserved
            };
            uint32_t Value;
        } DW0;

        //! \name Local enumerations

        //! \brief ARBITRATION_PRIORITY_CONTROL
        //! \details
        //!     This field controls the priority of arbitration used in the GAC/GAM
        //!     pipeline for this surface.
        enum ARBITRATION_PRIORITY_CONTROL
        {
            ARBITRATION_PRIORITY_CONTROL_HIGHESTPRIORITY       = 0,  //!< No additional details
            ARBITRATION_PRIORITY_CONTROL_SECONDHIGHESTPRIORITY = 1,  //!< No additional details
            ARBITRATION_PRIORITY_CONTROL_THIRDHIGHESTPRIORITY  = 2,  //!< No additional details
            ARBITRATION_PRIORITY_CONTROL_LOWESTPRIORITY        = 3,  //!< No additional details
        };

        //! \brief MEMORY_COMPRESSION_ENABLE
        //! \details
        //!     Memory compression will be attempted for this surface.
        enum MEMORY_COMPRESSION_ENABLE
        {
            MEMORY_COMPRESSION_ENABLE_DISABLE = 0,  //!< No additional details
            MEMORY_COMPRESSION_ENABLE_ENABLE  = 1,  //!< No additional details
        };

        //! \brief MEMORY_COMPRESSION_MODE
        //! \details
        //!     Distinguishes Vertical from Horizontal compression. Please refer to
        //!     vol1a <b>Memory Data</b>.
        enum MEMORY_COMPRESSION_MODE
        {
            MEMORY_COMPRESSION_MODE_HORIZONTALCOMPRESSIONMODE = 0,  //!< No additional details
            MEMORY_COMPRESSION_MODE_VERTICALCOMPRESSIONMODE   = 1,  //!< No additional details
        };

        //! \brief CACHE_SELECT
        //! \details
        //!     This field controls if the Row Store is going to store inside Media
        //!     Cache (rowstore cache) or to LLC.
        enum CACHE_SELECT
        {
            CACHE_SELECT_UNNAMED0 = 0,  //!< Buffer going to LLC.
            CACHE_SELECT_UNNAMED1 = 1,  //!< Buffer going to Internal Media Storage.
        };

        //! \brief TILED_RESOURCE_MODE
        //! \details
        //!     <b>For Media Surfaces</b>: This field specifies the tiled resource mode.
        enum TILED_RESOURCE_MODE
        {
            TILED_RESOURCE_MODE_TRMODENONE   = 0,  //!< No tiled resource.
            TILED_RESOURCE_MODE_TRMODETILEYF = 1,  //!< 4KB tiled resources
            TILED_RESOURCE_MODE_TRMODETILEYS = 2,  //!< 64KB tiled resources
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Surface_Control_Bits_CMD()
        {
            DW0.Value                      = 0;
            DW0.ArbitrationPriorityControl = ARBITRATION_PRIORITY_CONTROL_HIGHESTPRIORITY;
            DW0.MemoryCompressionEnable    = MEMORY_COMPRESSION_ENABLE_DISABLE;
            DW0.CacheSelect                = CACHE_SELECT_UNNAMED0;
        }

        static const size_t dwSize   = 1;
        static const size_t byteSize = 4;
    };

    //!
    //! \brief VDENC_Sub_Mb_Pred_Mode
    //! \details
    //!
    //!
    struct VDENC_Sub_Mb_Pred_Mode_CMD
    {
        union
        {
            //!< WORD 0
            struct
            {
                uint8_t Submbpredmode0 : __CODEGEN_BITFIELD(0, 1);  //!< SubMbPredMode[0]
                uint8_t Submbpredmode1 : __CODEGEN_BITFIELD(2, 3);  //!< SubMbPredMode[1]
                uint8_t Submbpredmode2 : __CODEGEN_BITFIELD(4, 5);  //!< SubMbPredMode[2]
                uint8_t Submbpredmode3 : __CODEGEN_BITFIELD(6, 7);  //!< SubMbPredMode[3]
            };
            uint8_t Value;
        } DW0;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Sub_Mb_Pred_Mode_CMD()
        {
            DW0.Value = 0;
        }

        static const size_t dwSize   = 0;
        static const size_t byteSize = 1;
    };

    //!
    //! \brief VDENC_Block_8x8_4
    //! \details
    //!
    //!
    struct VDENC_Block_8x8_4_CMD
    {
        union
        {
            //!< WORD 0
            struct
            {
                uint16_t Block8X80 : __CODEGEN_BITFIELD(0, 3);    //!< Block8x8[0]
                uint16_t Block8X81 : __CODEGEN_BITFIELD(4, 7);    //!< Block8x8[1]
                uint16_t Block8X82 : __CODEGEN_BITFIELD(8, 11);   //!< Block8x8[2]
                uint16_t Block8X83 : __CODEGEN_BITFIELD(12, 15);  //!< Block8x8[3]
            };
            uint16_t Value;
        } DW0;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Block_8x8_4_CMD()
        {
            DW0.Value = 0;
        }

        static const size_t dwSize   = 0;
        static const size_t byteSize = 2;
    };

    //!
    //! \brief VDENC_Delta_MV_XY
    //! \details
    //!
    //!
    //!     Calculates the difference between the actual MV for the Sub Macroblock
    //!     and the predicted MV based on the availability of the neighbors.
    //!
    //!     This is calculated and populated for Inter frames only. In case of an
    //!     Intra MB in Inter frames, this value should be 0.
    //!
    struct VDENC_Delta_MV_XY_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t X0 : __CODEGEN_BITFIELD(0, 15);   //!< X0
                uint32_t Y0 : __CODEGEN_BITFIELD(16, 31);  //!< Y0
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t X1 : __CODEGEN_BITFIELD(0, 15);   //!< X1
                uint32_t Y1 : __CODEGEN_BITFIELD(16, 31);  //!< Y1
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t X2 : __CODEGEN_BITFIELD(0, 15);   //!< X2
                uint32_t Y2 : __CODEGEN_BITFIELD(16, 31);  //!< Y2
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t X3 : __CODEGEN_BITFIELD(0, 15);   //!< X3
                uint32_t Y3 : __CODEGEN_BITFIELD(16, 31);  //!< Y3
            };
            uint32_t Value;
        } DW3;

        //! \name Local enumerations

        //! \brief X0
        //! \details
        enum X0
        {
            X0_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief Y0
        //! \details
        enum Y0
        {
            Y0_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief X1
        //! \details
        enum X1
        {
            X1_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief Y1
        //! \details
        enum Y1
        {
            Y1_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief X2
        //! \details
        enum X2
        {
            X2_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief Y2
        //! \details
        enum Y2
        {
            Y2_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief X3
        //! \details
        enum X3
        {
            X3_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief Y3
        //! \details
        enum Y3
        {
            Y3_UNNAMED0 = 0,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Delta_MV_XY_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.X0 = X0_UNNAMED0;
            DW0.Y0 = Y0_UNNAMED0;

            DW1.X1 = X1_UNNAMED0;
            DW1.Y1 = Y1_UNNAMED0;

            DW2.X2 = X2_UNNAMED0;
            DW2.Y2 = Y2_UNNAMED0;

            DW3.X3 = X3_UNNAMED0;
            DW3.Y3 = Y3_UNNAMED0;
        }

        static const size_t dwSize   = 4;
        static const size_t byteSize = 16;
    };

    //!
    //! \brief VDENC_Colocated_MV_Picture
    //! \details
    //!
    //!
    struct VDENC_Colocated_MV_Picture_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;   //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;   //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      PictureFields;  //!< Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Colocated_MV_Picture_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_Down_Scaled_Reference_Picture
    //! \details
    //!
    //!
    struct VDENC_Down_Scaled_Reference_Picture_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;   //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;   //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      PictureFields;  //!< Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Down_Scaled_Reference_Picture_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_FRAME_BASED_STATISTICS_STREAMOUT
    //! \details
    //!
    //!
    struct VDENC_FRAME_BASED_STATISTICS_STREAMOUT_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t SumSadHaarForBestMbChoice;  //!< Sum sad\haar for best MB choice
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t IntraIso16X16MbCount : __CODEGEN_BITFIELD(0, 15);  //!< Intra iso 16x16 MB count
                uint32_t IntraMbCount : __CODEGEN_BITFIELD(16, 31);         //!< Intra MB count
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t IntraIso4X4MbCount : __CODEGEN_BITFIELD(0, 15);   //!< Intra iso 4x4 MB count
                uint32_t IntraIso8X8MbCount : __CODEGEN_BITFIELD(16, 31);  //!< Intra iso 8x8 MB count
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t SegmentMapCount0 : __CODEGEN_BITFIELD(0, 15);   //!< segment map count 0
                uint32_t SegmentMapCount1 : __CODEGEN_BITFIELD(16, 31);  //!< segment map count 1
            };
            uint32_t Value;
        } DW3;
        union
        {
            //!< DWORD 4
            struct
            {
                uint32_t SegmentMapCount2 : __CODEGEN_BITFIELD(0, 15);   //!< segment map count 2
                uint32_t SegmentMapCount3 : __CODEGEN_BITFIELD(16, 31);  //!< segment map count 3
            };
            uint32_t Value;
        } DW4;

        uint32_t Reserved160[12];  //!< Reserved

        union
        {
            //!< DWORD 17
            struct
            {
                uint32_t SumSadHaarForBestMbChoiceBottomHalfPopulation;  //!< Sum sad\haar for best MB choice bottom half population
            };
            uint32_t Value;
        } DW17;
        union
        {
            //!< DWORD 18
            struct
            {
                uint32_t SumSadHaarForBestMbChoiceTopHalfPopulation;  //!< Sum sad\haar for best MB choice top half population
            };
            uint32_t Value;
        } DW18;
        union
        {
            //!< DWORD 19
            struct
            {
                uint32_t SumTopHalfPopulationOccurrences : __CODEGEN_BITFIELD(0, 15);      //!< Sum top half population occurrences
                uint32_t SumBottomHalfPopulationOccurrences : __CODEGEN_BITFIELD(16, 31);  //!< Sum bottom half population occurrences
            };
            uint32_t Value;
        } DW19;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_FRAME_BASED_STATISTICS_STREAMOUT_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 20;
        static const size_t byteSize = 80;
    };

    //!
    //! \brief VDENC_Mode_StreamOut_Data
    //! \details
    //!
    //!
    struct VDENC_Mode_StreamOut_Data_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t MbX : __CODEGEN_BITFIELD(0, 7);                  //!< MB.X
                uint32_t MbY : __CODEGEN_BITFIELD(8, 15);                 //!< MB.Y
                uint32_t MinimalDistortion : __CODEGEN_BITFIELD(16, 31);  //!< Minimal Distortion
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t Skiprawdistortion : __CODEGEN_BITFIELD(0, 15);    //!< SkipRawDistortion
                uint32_t Interrawdistortion : __CODEGEN_BITFIELD(16, 31);  //!< InterRawDistortion
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t Bestintrarawdistortion : __CODEGEN_BITFIELD(0, 15);            //!< BestIntraRawDistortion
                uint32_t IntermbmodeChromaPredictionMode : __CODEGEN_BITFIELD(16, 17);  //!< INTERMBMODECHROMA_PREDICTION_MODE
                uint32_t Intrambmode : __CODEGEN_BITFIELD(18, 19);                      //!< INTRAMBMODE
                uint32_t Intrambflag : __CODEGEN_BITFIELD(20, 20);                      //!< INTRAMBFLAG
                uint32_t Lastmbflag : __CODEGEN_BITFIELD(21, 21);                       //!< LASTMBFLAG
                uint32_t CoefficientClampOccurred : __CODEGEN_BITFIELD(22, 22);         //!< Coefficient Clamp Occurred
                uint32_t ConformanceViolation : __CODEGEN_BITFIELD(23, 23);             //!< Conformance Violation
                uint32_t Submbpredmode : __CODEGEN_BITFIELD(24, 31);                    //!< SubMbPredMode
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t Lumaintramode0 : __CODEGEN_BITFIELD(0, 15);   //!< LumaIntraMode[0]
                uint32_t Lumaintramode1 : __CODEGEN_BITFIELD(16, 31);  //!< LumaIntraMode[1]
            };
            uint32_t Value;
        } DW3;
        union
        {
            //!< DWORD 4
            struct
            {
                uint32_t Lumaintramode2 : __CODEGEN_BITFIELD(0, 15);   //!< LumaIntraMode[2]
                uint32_t Lumaintramode3 : __CODEGEN_BITFIELD(16, 31);  //!< LumaIntraMode[3]
            };
            uint32_t Value;
        } DW4;
        VDENC_Delta_MV_XY_CMD DeltaMv0;  //!< Delta MV0
        VDENC_Delta_MV_XY_CMD DeltaMv1;  //!< Delta MV1
        union
        {
            //!< DWORD 13
            struct
            {
                uint32_t FwdRefids : __CODEGEN_BITFIELD(0, 15);   //!< FWD REFIDs
                uint32_t BwdRefids : __CODEGEN_BITFIELD(16, 31);  //!< BWD REFIDs
            };
            uint32_t Value;
        } DW13;
        union
        {
            //!< DWORD 14
            struct
            {
                uint32_t QpY : __CODEGEN_BITFIELD(0, 5);              //!< QP_y
                uint32_t MbBitCount : __CODEGEN_BITFIELD(6, 18);      //!< MB_Bit_Count
                uint32_t MbHeaderCount : __CODEGEN_BITFIELD(19, 31);  //!< MB_Header_Count
            };
            uint32_t Value;
        } DW14;
        union
        {
            //!< DWORD 15
            struct
            {
                uint32_t MbType : __CODEGEN_BITFIELD(0, 4);        //!< MB Type
                uint32_t BlockCbp : __CODEGEN_BITFIELD(5, 30);     //!< Block CBP
                uint32_t Skipmbflag : __CODEGEN_BITFIELD(31, 31);  //!< SkipMbFlag
            };
            uint32_t Value;
        } DW15;

        //! \name Local enumerations

        //! \brief INTERMBMODECHROMA_PREDICTION_MODE
        //! \details
        //!     This field indicates the InterMB Parition type for Inter MB.
        //!     <br>OR</br>
        //!     This field indicates Chroma Prediction Mode for Intra MB.
        enum INTERMBMODECHROMA_PREDICTION_MODE
        {
            INTERMBMODECHROMA_PREDICTION_MODE_UNNAMED0 = 0,  //!< 16x16
            INTERMBMODECHROMA_PREDICTION_MODE_UNNAMED1 = 1,  //!< 16x8
            INTERMBMODECHROMA_PREDICTION_MODE_UNNAMED2 = 2,  //!< 8x16
            INTERMBMODECHROMA_PREDICTION_MODE_UNNAMED3 = 3,  //!< 8x8
        };

        //! \brief INTRAMBMODE
        //! \details
        //!     This field indicates the Best Intra Partition.
        enum INTRAMBMODE
        {
            INTRAMBMODE_UNNAMED0 = 0,  //!< 16x16
            INTRAMBMODE_UNNAMED1 = 1,  //!< 8x8
            INTRAMBMODE_UNNAMED2 = 2,  //!< 4x4
        };

        //! \brief INTRAMBFLAG
        //! \details
        //!     This field specifies whether the current macroblock is an Intra (I)
        //!     macroblock.
        enum INTRAMBFLAG
        {
            INTRAMBFLAG_INTER = 0,  //!< inter macroblock
            INTRAMBFLAG_INTRA = 1,  //!< intra macroblock
        };

        enum LASTMBFLAG
        {
            LASTMBFLAG_NOTLAST = 0,  //!< The current MB is not the last MB in the current Slice.
            LASTMBFLAG_LAST    = 1,  //!< The current MB is the last MB in the current Slice.
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Mode_StreamOut_Data_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW2.IntermbmodeChromaPredictionMode = INTERMBMODECHROMA_PREDICTION_MODE_UNNAMED0;
            DW2.Intrambmode                     = INTRAMBMODE_UNNAMED0;
            DW2.Intrambflag                     = INTRAMBFLAG_INTER;
            DW2.Lastmbflag                      = LASTMBFLAG_NOTLAST;
        }

        static const size_t dwSize   = 16;
        static const size_t byteSize = 64;
    };

    //!
    //! \brief VDENC_Original_Uncompressed_Picture
    //! \details
    //!
    //!
    struct VDENC_Original_Uncompressed_Picture_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;   //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;   //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      PictureFields;  //!< Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Original_Uncompressed_Picture_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_Reference_Picture
    //! \details
    //!
    //!
    struct VDENC_Reference_Picture_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;   //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;   //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      PictureFields;  //!< Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Reference_Picture_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_Row_Store_Scratch_Buffer_Picture
    //! \details
    //!
    //!
    struct VDENC_Row_Store_Scratch_Buffer_Picture_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;         //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;         //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      BufferPictureFields;  //!< Buffer Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Row_Store_Scratch_Buffer_Picture_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_Statistics_Streamout
    //! \details
    //!
    //!
    struct VDENC_Statistics_Streamout_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;   //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;   //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      PictureFields;  //!< Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Statistics_Streamout_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_Streamin_Data_Picture
    //! \details
    //!
    //!
    struct VDENC_Streamin_Data_Picture_CMD
    {
        VDENC_64B_Aligned_Lower_Address_CMD LowerAddress;   //!< Lower Address
        VDENC_64B_Aligned_Upper_Address_CMD UpperAddress;   //!< Upper Address
        VDENC_Surface_Control_Bits_CMD      PictureFields;  //!< Picture Fields

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Streamin_Data_Picture_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_STREAMIN_STATE
    //! \details
    //!
    //!
    struct VDENC_STREAMIN_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t RegionOfInterestRoiSelection : __CODEGEN_BITFIELD(0, 7);  //!< Region of Interest (ROI) Selection
                uint32_t Forceintra : __CODEGEN_BITFIELD(8, 8);                    //!< FORCEINTRA
                uint32_t Forceskip : __CODEGEN_BITFIELD(9, 9);                     //!< FORCESKIP
                uint32_t Reserved10 : __CODEGEN_BITFIELD(10, 31);                  //!< Reserved
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t Qpprimey : __CODEGEN_BITFIELD(0, 7);           //!< QPPRIMEY
                uint32_t Targetsizeinword : __CODEGEN_BITFIELD(8, 15);  //!< TargetSizeInWord
                uint32_t Maxsizeinword : __CODEGEN_BITFIELD(16, 23);    //!< MaxSizeInWord
                uint32_t Reserved56 : __CODEGEN_BITFIELD(24, 31);       //!< Reserved
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t FwdPredictorX : __CODEGEN_BITFIELD(0, 15);   //!< Fwd Predictor.X
                uint32_t FwdPredictorY : __CODEGEN_BITFIELD(16, 31);  //!< Fwd Predictor.Y
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t BwdPredictorX : __CODEGEN_BITFIELD(0, 15);   //!< Bwd Predictor.X
                uint32_t BwdPredictorY : __CODEGEN_BITFIELD(16, 31);  //!< Bwd Predictor.Y
            };
            uint32_t Value;
        } DW3;
        union
        {
            //!< DWORD 4
            struct
            {
                uint32_t FwdRefid0 : __CODEGEN_BITFIELD(0, 3);     //!< Fwd RefID0
                uint32_t BwdRefid0 : __CODEGEN_BITFIELD(4, 7);     //!< Bwd RefID0
                uint32_t Reserved136 : __CODEGEN_BITFIELD(8, 31);  //!< Reserved
            };
            uint32_t Value;
        } DW4;

        uint32_t Reserved160[11];  //!< Reserved

        //! \name Local enumerations

        //! \brief FORCEINTRA
        //! \details
        //!     This field specifies whether current macroblock should be coded as an
        //!     intra macroblock.
        //!                    It is illegal to enable both ForceSkip and ForceIntra for
        //!     the same macroblock.
        //!                    This should be disabled if Rolling-I is enabled in the
        //!     VDEnc Image State.
        enum FORCEINTRA
        {
            FORCEINTRA_DISABLE = 0,  //!< VDEnc determined macroblock type
            FORCEINTRA_ENABLE  = 1,  //!< Force to be coded as an intra macroblock
        };

        //! \brief FORCESKIP
        //! \details
        //!     This field specifies whether current macroblock should be coded as a
        //!     skipped macroblock.
        //!                    It is illegal to enable both ForceSkip and ForceIntra for
        //!     the same macroblock.
        //!                    This should be disabled if Rolling-I is enabled in the
        //!     VDEnc Image State.
        //!                      It is illegal to enable ForceSkip for I-Frames.
        enum FORCESKIP
        {
            FORCESKIP_DISABLE = 0,  //!< VDEnc determined macroblock type
            FORCESKIP_ENABLE  = 1,  //!< Force to be coded as a skipped macroblock
        };

        //! \brief QPPRIMEY
        //! \details
        //!     Quantization parameter for Y.
        enum QPPRIMEY
        {
            QPPRIMEY_UNNAMED0  = 0,   //!< No additional details
            QPPRIMEY_UNNAMED51 = 51,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_STREAMIN_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.Forceintra = FORCEINTRA_DISABLE;
            DW0.Forceskip  = FORCESKIP_DISABLE;

            DW1.Qpprimey = QPPRIMEY_UNNAMED0;
        }

        static const size_t dwSize   = 16;
        static const size_t byteSize = 64;
    };

    //!
    //! \brief VDENC_HEVC_VP9_FRAME_BASED_STATISTICS_STREAMOUT
    //! \details
    //!
    //!
    struct VDENC_HEVC_VP9_FRAME_BASED_STATISTICS_STREAMOUT_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t SumSadHaarForBestModeDecision;  //!< Sum sad\haar for best mode decision
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t IntraCuCountNormalized : __CODEGEN_BITFIELD(0, 19);  //!< Intra CU count normalized
                uint32_t Reserved52 : __CODEGEN_BITFIELD(20, 31);             //!< Reserved
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t NonSkipInterCuCountNormalized : __CODEGEN_BITFIELD(0, 19);  //!< Non-skip Inter CU count normalized
                uint32_t Reserved84 : __CODEGEN_BITFIELD(20, 31);                    //!< Reserved
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t SegmentMapCount0 : __CODEGEN_BITFIELD(0, 19);  //!< segment map count 0
                uint32_t Reserved116 : __CODEGEN_BITFIELD(20, 31);      //!< Reserved
            };
            uint32_t Value;
        } DW3;
        union
        {
            //!< DWORD 4
            struct
            {
                uint32_t SegmentMapCount1 : __CODEGEN_BITFIELD(0, 19);  //!< segment map count 1
                uint32_t Reserved148 : __CODEGEN_BITFIELD(20, 31);      //!< Reserved
            };
            uint32_t Value;
        } DW4;
        union
        {
            //!< DWORD 5
            struct
            {
                uint32_t SegmentMapCount2 : __CODEGEN_BITFIELD(0, 19);  //!< segment map count 2
                uint32_t Reserved180 : __CODEGEN_BITFIELD(20, 31);      //!< Reserved
            };
            uint32_t Value;
        } DW5;
        union
        {
            //!< DWORD 6
            struct
            {
                uint32_t SegmentMapCount3 : __CODEGEN_BITFIELD(0, 19);  //!< segment map count 3
                uint32_t Reserved212 : __CODEGEN_BITFIELD(20, 31);      //!< Reserved
            };
            uint32_t Value;
        } DW6;
        union
        {
            //!< DWORD 7
            struct
            {
                uint32_t MvXGlobalMeSample025X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 0 (.25x,.25x)
                uint32_t MvYGlobalMeSample025X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 0 (.25x,.25x)
            };
            uint32_t Value;
        } DW7;
        union
        {
            //!< DWORD 8
            struct
            {
                uint32_t MvXGlobalMeSample125X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 1 (.25x,.25x)
                uint32_t MvYGlobalMeSample125X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 1 (.25x,.25x)
            };
            uint32_t Value;
        } DW8;
        union
        {
            //!< DWORD 9
            struct
            {
                uint32_t MvXGlobalMeSample225X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 2 (.25x,.25x)
                uint32_t MvYGlobalMeSample225X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 2 (.25x,.25x)
            };
            uint32_t Value;
        } DW9;
        union
        {
            //!< DWORD 10
            struct
            {
                uint32_t MvXGlobalMeSample325X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 3 (.25x,.25x)
                uint32_t MvYGlobalMeSample325X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 3 (.25x,.25x)
            };
            uint32_t Value;
        } DW10;
        union
        {
            //!< DWORD 11
            struct
            {
                uint32_t MvXGlobalMeSample425X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 4 (.25x,.25x)
                uint32_t MvYGlobalMeSample425X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 4 (.25x,.25x)
            };
            uint32_t Value;
        } DW11;
        union
        {
            //!< DWORD 12
            struct
            {
                uint32_t MvXGlobalMeSample525X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 5 (.25x,.25x)
                uint32_t MvYGlobalMeSample525X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 5 (.25x,.25x)
            };
            uint32_t Value;
        } DW12;
        union
        {
            //!< DWORD 13
            struct
            {
                uint32_t MvXGlobalMeSample625X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 6 (.25x,.25x)
                uint32_t MvYGlobalMeSample625X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 6 (.25x,.25x)
            };
            uint32_t Value;
        } DW13;
        union
        {
            //!< DWORD 14
            struct
            {
                uint32_t MvXGlobalMeSample725X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 7 (.25x,.25x)
                uint32_t MvYGlobalMeSample725X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 7 (.25x,.25x)
            };
            uint32_t Value;
        } DW14;
        union
        {
            //!< DWORD 15
            struct
            {
                uint32_t MvXGlobalMeSample825X25X : __CODEGEN_BITFIELD(0, 15);   //!< MV.x Global ME sample 8 (.25x,.25x)
                uint32_t MvYGlobalMeSample825X25X : __CODEGEN_BITFIELD(16, 31);  //!< MV.y Global ME sample 8 (.25x,.25x)
            };
            uint32_t Value;
        } DW15;
        union
        {
            //!< DWORD 16
            struct
            {
                uint32_t RefidForGlobalmeSample0 : __CODEGEN_BITFIELD(0, 1);    //!< RefID for GlobalME sample 0
                uint32_t RefidForGlobalmeSample18 : __CODEGEN_BITFIELD(2, 17);  //!< RefID for GlobalME sample 1-8
                uint32_t Reserved530 : __CODEGEN_BITFIELD(18, 31);              //!< Reserved
            };
            uint32_t Value;
        } DW16;
        union
        {
            //!< DWORD 17
            struct
            {
                uint32_t PaletteCuCountNormalized : __CODEGEN_BITFIELD(0, 19);  //!< Palette CU Count Normalized
                uint32_t Reserved564 : __CODEGEN_BITFIELD(20, 31);              //!< Reserved
            };
            uint32_t Value;
        } DW17;
        union
        {
            //!< DWORD 18
            struct
            {
                uint32_t IbcCuCountNormalized : __CODEGEN_BITFIELD(0, 19);  //!< IBC CU Count Normalized
                uint32_t Reserved596 : __CODEGEN_BITFIELD(20, 31);          //!< Reserved
            };
            uint32_t Value;
        } DW18;
        union
        {
            //!< DWORD 19
            struct
            {
                uint32_t Reserved;
            };
            uint32_t Value;
        } DW19;
        union
        {
            //!< DWORD 20
            struct
            {
                uint32_t Reserved656;  //!< Reserved
            };
            uint32_t Value;
        } DW20;
        union
        {
            //!< DWORD 21
            struct
            {
                uint32_t Reserved672;  //!< Reserved
            };
            uint32_t Value;
        } DW21;
        union
        {
            //!< DWORD 22
            struct
            {
                uint32_t PositionOfTimerExpiration : __CODEGEN_BITFIELD(0, 15);  //!< Position of Timer expiration
                uint32_t TimerExpireStatus : __CODEGEN_BITFIELD(16, 16);         //!< Timer Expire status
                uint32_t Reserved721 : __CODEGEN_BITFIELD(17, 31);               //!< Reserved
            };
            uint32_t Value;
        } DW22;
        union
        {
            //!< DWORD 23
            struct
            {
                uint32_t LocationOfPanic : __CODEGEN_BITFIELD(0, 15);  //!< Location of panic
                uint32_t PanicDetected : __CODEGEN_BITFIELD(16, 16);   //!< Panic detected
                uint32_t Reserved753 : __CODEGEN_BITFIELD(17, 31);     //!< Reserved
            };
            uint32_t Value;
        } DW23;

        uint32_t Reserved768[5];  //!< Reserved

        union
        {
            //!< DWORD 29
            struct
            {
                uint32_t SumSadHaarForBestModeDecisionBottomHalfPopulation;  //!< Sum sad\haar for best mode decision bottom half population
            };
            uint32_t Value;
        } DW29;
        union
        {
            //!< DWORD 30
            struct
            {
                uint32_t SumSadHaarForBestModeDecisionTopHalfPopulation;  //!< Sum sad\haar for best mode decision top half population
            };
            uint32_t Value;
        } DW30;
        union
        {
            //!< DWORD 31
            struct
            {
                uint32_t SumTopHalfPopulationOccurrences : __CODEGEN_BITFIELD(0, 15);      //!< Sum top half population occurrences
                uint32_t SumBottomHalfPopulationOccurrences : __CODEGEN_BITFIELD(16, 31);  //!< Sum bottom half population occurrences
            };
            uint32_t Value;
        } DW31;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_HEVC_VP9_FRAME_BASED_STATISTICS_STREAMOUT_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));
        }

        static const size_t dwSize   = 32;
        static const size_t byteSize = 128;
    };

    //!
    //! \brief VDENC_HEVC_VP9_STREAMIN_STATE
    //! \details
    //!     For the NumMergeCandidate paramaters [64x64/32x32/16x16/8x8], only the
    //!     following configurations are valid.
    //!     Normal Mode without force mv or force intra: 4321 [64x64 --> 16x16].
    //!     Speed Mode without force mv or force intra: 2220, 2110, 1210, 2200, 1110
    //!     [64x64 --> 16x16].
    //!
    struct VDENC_HEVC_VP9_STREAMIN_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t Roi32X32016X1603 : __CODEGEN_BITFIELD(0, 7);    //!< ROI 32x32_0 16x16_03
                uint32_t Maxtusize : __CODEGEN_BITFIELD(8, 9);           //!< MaxTUSize
                uint32_t Maxcusize : __CODEGEN_BITFIELD(10, 11);         //!< MaxCUSize
                uint32_t Numimepredictors : __CODEGEN_BITFIELD(12, 15);  //!< NUMIMEPREDICTORS
                uint32_t Reserved16 : __CODEGEN_BITFIELD(16, 20);
                uint32_t Reserved21 : __CODEGEN_BITFIELD(21, 21);
                uint32_t PaletteDisable : __CODEGEN_BITFIELD(22, 22);
                uint32_t Reserved23 : __CODEGEN_BITFIELD(23, 23);
                uint32_t PuType32X32016X1603 : __CODEGEN_BITFIELD(24, 31);  //!< PU Type 32x32_0 16x16_03
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t ForceMvX32X32016X160 : __CODEGEN_BITFIELD(0, 15);   //!< force_mv.x 32x32_0 16x16_0
                uint32_t ForceMvY32X32016X160 : __CODEGEN_BITFIELD(16, 31);  //!< force_mv.y 32x32_0 16x16_0
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t ForceMvX32X32016X161 : __CODEGEN_BITFIELD(0, 15);   //!< force_mv.x 32x32_0 16x16_1
                uint32_t ForceMvY32X32016X161 : __CODEGEN_BITFIELD(16, 31);  //!< force_mv.y 32x32_0 16x16_1
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t ForceMvX32X32016X162 : __CODEGEN_BITFIELD(0, 15);   //!< force_mv.x 32x32_0 16x16_2
                uint32_t ForceMvY32X32016X162 : __CODEGEN_BITFIELD(16, 31);  //!< force_mv.y 32x32_0 16x16_2
            };
            uint32_t Value;
        } DW3;
        union
        {
            //!< DWORD 4
            struct
            {
                uint32_t ForceMvX32X32016X163 : __CODEGEN_BITFIELD(0, 15);   //!< force_mv.x 32x32_0 16x16_3
                uint32_t ForceMvY32X32016X163 : __CODEGEN_BITFIELD(16, 31);  //!< force_mv.y 32x32_0 16x16_3
            };
            uint32_t Value;
        } DW4;
        union
        {
            //!< DWORD 5
            struct
            {
                uint32_t Reserved160;  //!< Reserved
            };
            uint32_t Value;
        } DW5;
        union
        {
            //!< DWORD 6
            struct
            {
                uint32_t ForceMvRefidx32X32016X160 : __CODEGEN_BITFIELD(0, 3);    //!< force_mv refidx 32x32_0 16x16_0
                uint32_t ForceMvRefidx32X32016X1613 : __CODEGEN_BITFIELD(4, 15);  //!< force_mv refidx 32x32_0 16x16_1-3
                uint32_t Nummergecandidatecu8X8 : __CODEGEN_BITFIELD(16, 19);     //!< NumMergeCandidateCU8x8
                uint32_t Nummergecandidatecu16X16 : __CODEGEN_BITFIELD(20, 23);   //!< NumMergeCandidateCU16x16
                uint32_t Nummergecandidatecu32X32 : __CODEGEN_BITFIELD(24, 27);   //!< NumMergeCandidateCU32x32
                uint32_t Nummergecandidatecu64X64 : __CODEGEN_BITFIELD(28, 31);   //!< NumMergeCandidateCU64x64
            };
            uint32_t Value;
        } DW6;
        union
        {
            //!< DWORD 7
            struct
            {
                uint32_t Segid32X32016X1603Vp9Only : __CODEGEN_BITFIELD(0, 15);         //!< SegID 32x32_0 16x16_03 (VP9 only)
                uint32_t QpEn32X32016X1603 : __CODEGEN_BITFIELD(16, 19);                //!< QP_En 32x32_0 16x16_03
                uint32_t SegidEnable : __CODEGEN_BITFIELD(20, 20);                      //!< SegID Enable
                uint32_t Reserved245 : __CODEGEN_BITFIELD(21, 22);                      //!< Reserved
                uint32_t ForceRefidEnable32X320 : __CODEGEN_BITFIELD(23, 23);           //!< Force Refid Enable (32x32_0)
                uint32_t ImePredictorRefidSelect0332X320 : __CODEGEN_BITFIELD(24, 31);  //!< IME predictor/refid Select0-3  32x32_0
            };
            uint32_t Value;
        } DW7;
        union
        {
            //!< DWORD 8
            struct
            {
                uint32_t ImePredictor0X32X320 : __CODEGEN_BITFIELD(0, 15);   //!< ime_predictor0.x 32x32_0
                uint32_t ImePredictor0Y32X320 : __CODEGEN_BITFIELD(16, 31);  //!< ime_predictor0.y 32x32_0
            };
            uint32_t Value;
        } DW8;
        union
        {
            //!< DWORD 9
            struct
            {
                uint32_t ImePredictor0X32X321 : __CODEGEN_BITFIELD(0, 15);   //!< ime_predictor0.x 32x32_1
                uint32_t ImePredictor0Y32X321 : __CODEGEN_BITFIELD(16, 31);  //!< ime_predictor0.y 32x32_1
            };
            uint32_t Value;
        } DW9;
        union
        {
            //!< DWORD 10
            struct
            {
                uint32_t ImePredictor0X32X322 : __CODEGEN_BITFIELD(0, 15);   //!< ime_predictor0.x 32x32_2
                uint32_t ImePredictor0Y32X322 : __CODEGEN_BITFIELD(16, 31);  //!< ime_predictor0.y 32x32_2
            };
            uint32_t Value;
        } DW10;
        union
        {
            //!< DWORD 11
            struct
            {
                uint32_t ImePredictor0X32X323 : __CODEGEN_BITFIELD(0, 15);   //!< ime_predictor0.x 32x32_3
                uint32_t ImePredictor0Y32X323 : __CODEGEN_BITFIELD(16, 31);  //!< ime_predictor0.y 32x32_3
            };
            uint32_t Value;
        } DW11;
        union
        {
            //!< DWORD 12
            struct
            {
                uint32_t ImePredictor0Refidx32X320 : __CODEGEN_BITFIELD(0, 3);     //!< ime_predictor0 refidx 32x32_0
                uint32_t ImePredictor13Refidx32X3213 : __CODEGEN_BITFIELD(4, 15);  //!< ime_predictor1-3 refidx 32x32_1-3
                uint32_t Reserved400 : __CODEGEN_BITFIELD(16, 31);                 //!< Reserved
            };
            uint32_t Value;
        } DW12;
        union
        {
            //!< DWORD 13
            struct
            {
                uint32_t Panicmodelcuthreshold : __CODEGEN_BITFIELD(0, 15);  //!< PanicModeLCUThreshold
                uint32_t Reserved432 : __CODEGEN_BITFIELD(16, 31);           //!< Reserved
            };
            uint32_t Value;
        } DW13;
        union
        {
            //!< DWORD 14
            struct
            {
                uint32_t ForceQpValue16X160 : __CODEGEN_BITFIELD(0, 7);    //!< Force QP Value 16x16_0
                uint32_t ForceQpValue16X161 : __CODEGEN_BITFIELD(8, 15);   //!< Force QP Value 16x16_1
                uint32_t ForceQpValue16X162 : __CODEGEN_BITFIELD(16, 23);  //!< Force QP Value 16x16_2
                uint32_t ForceQpValue16X163 : __CODEGEN_BITFIELD(24, 31);  //!< Force QP Value 16x16_3
            };
            uint32_t Value;
        } DW14;
        union
        {
            //!< DWORD 15
            struct
            {
                uint32_t Reserved480;  //!< Reserved
            };
            uint32_t Value;
        } DW15;

        //! \name Local enumerations

        //! \brief NUMIMEPREDICTORS
        //! \details
        //!     <p>This parameter specifes the number of IME predictors to be processed
        //!     in stage3 IME.</p>
        //!     <p></p>
        enum NUMIMEPREDICTORS
        {
            NUMIMEPREDICTORS_UNNAMED0  = 0,   //!< No additional details
            NUMIMEPREDICTORS_UNNAMED4  = 4,   //!< No additional details
            NUMIMEPREDICTORS_UNNAMED8  = 8,   //!< No additional details
            NUMIMEPREDICTORS_UNNAMED12 = 12,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_HEVC_VP9_STREAMIN_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.Numimepredictors = NUMIMEPREDICTORS_UNNAMED0;
        }

        static const size_t dwSize   = 16;
        static const size_t byteSize = 64;
    };

    //!
    //! \brief VDENC_Surface_State_Fields
    //! \details
    //!
    //!
    struct VDENC_Surface_State_Fields_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t CrVCbUPixelOffsetVDirection : __CODEGEN_BITFIELD(0, 1);  //!< Cr(V)/Cb(U) Pixel Offset V Direction
                uint32_t SurfaceFormatByteSwizzle : __CODEGEN_BITFIELD(2, 2);     //!< Surface Format Byte Swizzle
                uint32_t ColorSpaceSelection : __CODEGEN_BITFIELD(3, 3);          //!< Color space selection
                uint32_t Width : __CODEGEN_BITFIELD(4, 17);                       //!< Width
                uint32_t Height : __CODEGEN_BITFIELD(18, 31);                     //!< Height
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t TileMode : __CODEGEN_BITFIELD(0, 1);                         //!< TILE_MODE
                uint32_t HalfPitchForChroma : __CODEGEN_BITFIELD(2, 2);               //!< HALF_PITCH_FOR_CHROMA
                uint32_t SurfacePitch : __CODEGEN_BITFIELD(3, 19);                    //!< Surface Pitch
                uint32_t ChromaDownsampleFilterControl : __CODEGEN_BITFIELD(20, 22);  //!< Chroma Downsample Filter Control
                uint32_t Reserved55 : __CODEGEN_BITFIELD(23, 26);                     //!< Reserved
                uint32_t SurfaceFormat : __CODEGEN_BITFIELD(27, 31);                  //!< SURFACE_FORMAT
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t YOffsetForUCb : __CODEGEN_BITFIELD(0, 14);   //!< Y Offset for U(Cb)
                uint32_t Reserved79 : __CODEGEN_BITFIELD(15, 15);     //!< Reserved
                uint32_t XOffsetForUCb : __CODEGEN_BITFIELD(16, 30);  //!< X Offset for U(Cb)
                uint32_t Reserved95 : __CODEGEN_BITFIELD(31, 31);     //!< Reserved
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t YOffsetForVCr : __CODEGEN_BITFIELD(0, 15);   //!< Y Offset for V(Cr)
                uint32_t XOffsetForVCr : __CODEGEN_BITFIELD(16, 28);  //!< X Offset for V(Cr)
                uint32_t Reserved125 : __CODEGEN_BITFIELD(29, 31);    //!< Reserved
            };
            uint32_t Value;
        } DW3;

        //! \name Local enumerations

        //! \brief TILE_MODE
        enum TILE_MODE
        {
            TILE_LINEAR = 0,  //!< Linear
            TILE_S      = 1,  //!< TileS(64K)
            TILE_X      = 2,  //!< Tile X
            TILE_F      = 3,  //!< Tile F
        };

        //! \brief HALF_PITCH_FOR_CHROMA
        //! \details
        //!     (This field must be set to Disable.) This field indicates that the
        //!     chroma plane(s) will use a pitch equal
        //!     to half the value specified in the Surface Pitch field. This field
        //!     is only used for PLANAR surface formats.
        //!     This field is igored by VDEnc (unless we support YV12).
        enum HALF_PITCH_FOR_CHROMA
        {
            HALF_PITCH_FOR_CHROMA_DISABLE = 0,  //!< No additional details
            HALF_PITCH_FOR_CHROMA_ENABLE  = 1,  //!< No additional details
        };

        //! \brief SURFACE_FORMAT
        //! \details
        //!     Specifies the format of the surface.
        enum SURFACE_FORMAT
        {
            SURFACE_FORMAT_YUV422            = 0,   //!< YUYV/YUY2 (8:8:8:8 MSB V0 Y1 U0 Y0)
            SURFACE_FORMAT_RGBA4444          = 1,   //!< RGBA 32-bit 4:4:4:4 packed (8:8:8:8 MSB-X:B:G:R)
            SURFACE_FORMAT_YUV444            = 2,   //!< YUV 32-bit 4:4:4 packed (8:8:8:8 MSB-A:Y:U:V)
            SURFACE_FORMAT_Y8UNORM           = 3,   //!< No additional details
            SURFACE_FORMAT_PLANAR_420_8      = 4,   //!< (NV12, IMC1,2,3,4, YV12)
            SURFACE_FORMAT_YCRCB_SWAPY_422   = 5,   //!< UYVY (8:8:8:8 MSB Y1 V0 Y0 U0)
            SURFACE_FORMAT_YCRCB_SWAPUV_422  = 6,   //!< YVYU (8:8:8:8 MSB U0 Y1 V0 Y0)
            SURFACE_FORMAT_YCRCB_SWAPUVY_422 = 7,   //!< VYUY (8:8:8:8 MSB Y1 U0 Y0 V0)
            SURFACE_FORMAT_P010              = 8,   //!< 10 - bit planar 420 (Tile - Y / Linear / Tile - X)
            SURFACE_FORMAT_RGBA_10_10_10_2   = 9,   //!<  Need to convert to YUV. 2 bits Alpha, 10 bits R 10 bits G 10 bits B
            SURFACE_FORMAT_Y410              = 10,  //!< 10 bit 4:4:4 packed
            SURFACE_FORMAT_NV21              = 11,  //!< 8-bit, same as NV12 but UV interleave is reversed
            SURFACE_FORMAT_P010_VARIANT      = 12,  //!< >8 bit planar 420 with MSB together and LSB at an offset in x direction
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_Surface_State_Fields_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW1.TileMode           = TILE_F;
            DW1.HalfPitchForChroma = HALF_PITCH_FOR_CHROMA_DISABLE;
        }

        static const size_t dwSize   = 4;
        static const size_t byteSize = 16;
    };

    //!
    //! \brief VD_PIPELINE_FLUSH
    //! \details
    //!
    //!
    struct VD_PIPELINE_FLUSH_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordCountN : __CODEGEN_BITFIELD(0, 11);          //!< DWORD_COUNT_N
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);          //!< Reserved
                uint32_t Subopcodeb : __CODEGEN_BITFIELD(16, 20);          //!< SUBOPCODEB
                uint32_t Subopcodea : __CODEGEN_BITFIELD(21, 22);          //!< SUBOPCODEA
                uint32_t MediaCommandOpcode : __CODEGEN_BITFIELD(23, 26);  //!< MEDIA_COMMAND_OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);            //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);         //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t HevcPipelineDone : __CODEGEN_BITFIELD(0, 0);             //!< HEVC pipeline Done
                uint32_t VdencPipelineDone : __CODEGEN_BITFIELD(1, 1);            //!< VD-ENC pipeline Done
                uint32_t MflPipelineDone : __CODEGEN_BITFIELD(2, 2);              //!< MFL pipeline Done
                uint32_t MfxPipelineDone : __CODEGEN_BITFIELD(3, 3);              //!< MFX pipeline Done
                uint32_t VdCommandMessageParserDone : __CODEGEN_BITFIELD(4, 4);   //!< VD command/message parser Done
                uint32_t HucPipelineDone : __CODEGEN_BITFIELD(5, 5);              //!< HuC Pipeline Done
                uint32_t AvpPipelineDone : __CODEGEN_BITFIELD(6, 6);              //!< AVP Pipeline Done
                uint32_t Reserved39 : __CODEGEN_BITFIELD(7, 15);                  //!< Reserved
                uint32_t HevcPipelineCommandFlush : __CODEGEN_BITFIELD(16, 16);   //!< HEVC pipeline command flush
                uint32_t VdencPipelineCommandFlush : __CODEGEN_BITFIELD(17, 17);  //!< VD-ENC pipeline command flush
                uint32_t MflPipelineCommandFlush : __CODEGEN_BITFIELD(18, 18);    //!< MFL pipeline command flush
                uint32_t MfxPipelineCommandFlush : __CODEGEN_BITFIELD(19, 19);    //!< MFX pipeline command flush
                uint32_t HucPipelineCommandFlush : __CODEGEN_BITFIELD(20, 20);    //!< HuC pipeline command flush
                uint32_t AvpPipelineCommandFlush : __CODEGEN_BITFIELD(21, 21);    //!< AVP Pipeline command Flush
                uint32_t Reserved53 : __CODEGEN_BITFIELD(22, 31);                 //!< Reserved
            };
            uint32_t Value;
        } DW1;

        //! \name Local enumerations

        //! \brief DWORD_COUNT_N
        //! \details
        //!     Total Length - 2
        enum DWORD_COUNT_N
        {
            DWORD_COUNT_N_EXCLUDESDWORD_0 = 0,  //!< No additional details
        };

        enum SUBOPCODEB
        {
            SUBOPCODEB_UNNAMED0 = 0,  //!< No additional details
        };

        enum SUBOPCODEA
        {
            SUBOPCODEA_UNNAMED0 = 0,  //!< No additional details
        };

        enum MEDIA_COMMAND_OPCODE
        {
            MEDIA_COMMAND_OPCODE_EXTENDEDCOMMAND = 15,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MEDIA = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VD_PIPELINE_FLUSH_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordCountN        = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopcodeb         = SUBOPCODEB_UNNAMED0;
            DW0.Subopcodea         = SUBOPCODEA_UNNAMED0;
            DW0.MediaCommandOpcode = MEDIA_COMMAND_OPCODE_EXTENDEDCOMMAND;
            DW0.Pipeline           = PIPELINE_MEDIA;
            DW0.CommandType        = COMMAND_TYPE_PARALLELVIDEOPIPE;
        }

        static const size_t dwSize   = 2;
        static const size_t byteSize = 8;
    };

    //!
    //! \brief VDENC_WEIGHTSOFFSETS_STATE
    //! \details
    //!
    //!
    struct VDENC_WEIGHTSOFFSETS_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwLength : __CODEGEN_BITFIELD(0, 11);      //!< DW_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t WeightsForwardReference0 : __CODEGEN_BITFIELD(0, 7);    //!< Weights Forward Reference0
                uint32_t OffsetForwardReference0 : __CODEGEN_BITFIELD(8, 15);    //!< Offset Forward Reference0
                uint32_t WeightsForwardReference1 : __CODEGEN_BITFIELD(16, 23);  //!< Weights Forward Reference1
                uint32_t OffsetForwardReference1 : __CODEGEN_BITFIELD(24, 31);   //!< Offset Forward Reference1
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t WeightsForwardReference2 : __CODEGEN_BITFIELD(0, 7);     //!< Weights Forward Reference2
                uint32_t OffsetForwardReference2 : __CODEGEN_BITFIELD(8, 15);     //!< Offset Forward Reference2
                uint32_t WeightsBackwardReference0 : __CODEGEN_BITFIELD(16, 23);  //!< Weights Backward Reference0
                uint32_t OffsetBackwardReference0 : __CODEGEN_BITFIELD(24, 31);   //!< Offset Backward Reference0
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t CbWeightsForwardReference0 : __CODEGEN_BITFIELD(0, 7);    //!< Cb Weights Forward Reference0
                uint32_t CbOffsetForwardReference0 : __CODEGEN_BITFIELD(8, 15);    //!< Cb Offset Forward Reference0
                uint32_t CbWeightsForwardReference1 : __CODEGEN_BITFIELD(16, 23);  //!< Cb Weights Forward Reference1
                uint32_t CbOffsetForwardReference1 : __CODEGEN_BITFIELD(24, 31);   //!< Cb Offset Forward Reference1
            };
            uint32_t Value;
        } DW3;
        union
        {
            //!< DWORD 4
            struct
            {
                uint32_t CbWeightsForwardReference2 : __CODEGEN_BITFIELD(0, 7);     //!< Cb Weights Forward Reference2
                uint32_t CbOffsetForwardReference2 : __CODEGEN_BITFIELD(8, 15);     //!< Cb Offset Forward Reference2
                uint32_t CbWeightsBackwardReference0 : __CODEGEN_BITFIELD(16, 23);  //!< Cb Weights Backward Reference0
                uint32_t CbOffsetBackwardReference0 : __CODEGEN_BITFIELD(24, 31);   //!< Cb Offset Backward Reference0
            };
            uint32_t Value;
        } DW4;
        union
        {
            //!< DWORD 5
            struct
            {
                uint32_t CrWeightsForwardReference0 : __CODEGEN_BITFIELD(0, 7);    //!< Cr Weights Forward Reference0
                uint32_t CrOffsetForwardReference0 : __CODEGEN_BITFIELD(8, 15);    //!< Cr Offset Forward Reference0
                uint32_t CrWeightsForwardReference1 : __CODEGEN_BITFIELD(16, 23);  //!< Cr Weights Forward Reference1
                uint32_t CrOffsetForwardReference1 : __CODEGEN_BITFIELD(24, 31);   //!< Cr Offset Forward Reference1
            };
            uint32_t Value;
        } DW5;
        union
        {
            //!< DWORD 6
            struct
            {
                uint32_t CrWeightsForwardReference2 : __CODEGEN_BITFIELD(0, 7);     //!< Cr Weights Forward Reference2
                uint32_t CrOffsetForwardReference2 : __CODEGEN_BITFIELD(8, 15);     //!< Cr Offset Forward Reference2
                uint32_t CrWeightsBackwardReference0 : __CODEGEN_BITFIELD(16, 23);  //!< Cr Weights Backward Reference0
                uint32_t CrOffsetBackwardReference0 : __CODEGEN_BITFIELD(24, 31);   //!< Cr Offset Backward Reference0
            };
            uint32_t Value;
        } DW6;

        //! \name Local enumerations

        //! \brief DW_LENGTH
        //! \details
        //!     Total Length - 2
        enum DW_LENGTH
        {
            DW_LENGTH_DWORDCOUNTN = 5,  //!< Excludes DWord (0,1)
        };

        enum SUBOPB
        {
            SUBOPB_VDENCAVCWEIGHTSOFFSETSTATE = 8,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_WEIGHTSOFFSETS_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwLength    = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopb      = SUBOPB_VDENCAVCWEIGHTSOFFSETSTATE;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;

            DW1.WeightsForwardReference0 = 1;
            DW1.OffsetForwardReference0  = 0;
            DW1.WeightsForwardReference1 = 1;
            DW1.OffsetForwardReference1  = 0;

            DW2.WeightsForwardReference2  = 1;
            DW2.OffsetForwardReference2   = 0;
            DW2.WeightsBackwardReference0 = 1;
            DW2.OffsetBackwardReference0  = 0;
        }

        static const size_t dwSize   = 7;
        static const size_t byteSize = 28;
    };

    //!
    //! \brief VDENC_DS_REF_SURFACE_STATE
    //! \details
    //!     This command specifies the surface state parameters for the downscaled
    //!     reference surfaces.
    //!
    struct VDENC_DS_REF_SURFACE_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t Reserved32;  //!< Reserved
            };
            uint32_t Value;
        } DW1;
        VDENC_Surface_State_Fields_CMD Dwords25;  //!< Dwords 2..5
        VDENC_Surface_State_Fields_CMD Dwords69;  //!< Dwords 6..9

        //! \name Local enumerations

        enum SUBOPB
        {
            SUBOPB_VDENCDSREFSURFACESTATE = 3,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_DS_REF_SURFACE_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopb      = SUBOPB_VDENCDSREFSURFACESTATE;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
        }

        static const size_t dwSize   = 10;
        static const size_t byteSize = 40;
    };

    //!
    //! \brief VDENC_PIPE_BUF_ADDR_STATE
    //! \details
    //!     This state command provides the memory base addresses for all row
    //!     stores, Streamin/StreamOut, DMV buffer along with the uncompressed
    //!     source, reference pictures and downscaled reference pictures required by
    //!     the VDENC pipeline. All reference pixel surfaces in the Encoder are
    //!     programmed with the same surface state (NV12 and TileY format), except
    //!     each has its own frame buffer base address. Same holds true for the
    //!     down-scaled reference pictures too. In the tile format, there is no need
    //!     to provide buffer offset for each slice; since from each MB address, the
    //!     hardware can calculated the corresponding memory location within the
    //!     frame buffer directly.  VDEnc supports 3 Downscaled reference frames ( 2
    //!     fwd, 1 bwd) and 4 normal reference frames ( 3 fwd, 1 bwd). The driver
    //!     will sort out the base address from the DPB table and populate the base
    //!     addresses that map to the corresponding reference index for both DS
    //!     references and normal reference frames. Each of the individual DS ref/
    //!     Normal ref frames have their own MOCS DW that corresponds to the
    //!     respective base address. The only thing that is different in the MOCS DW
    //!     amongst the DS reference frames is the MMCD controls (specified in bits
    //!     [10:9] of the MOCS DW). Driver needs to ensure that the other bits need
    //!     to be the same across the different DS ref frames. The same is
    //!     applicable for the normal reference frames.
    //!
    struct VDENC_PIPE_BUF_ADDR_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        VDENC_Down_Scaled_Reference_Picture_CMD    DsFwdRef0;                          //!< DS FWD REF0
        VDENC_Down_Scaled_Reference_Picture_CMD    DsFwdRef1;                          //!< DS FWD REF1
        VDENC_Down_Scaled_Reference_Picture_CMD    DsBwdRef0;                          //!< DS BWD REF0
        VDENC_Original_Uncompressed_Picture_CMD    OriginalUncompressedPicture;        //!< Original Uncompressed Picture
        VDENC_Streamin_Data_Picture_CMD            StreaminDataPicture;                //!< Streamin Data Picture
        VDENC_Row_Store_Scratch_Buffer_Picture_CMD RowStoreScratchBuffer;              //!< Row Store Scratch Buffer
        VDENC_Colocated_MV_Picture_CMD             ColocatedMv;                        //!< Colocated MV
        VDENC_Reference_Picture_CMD                FwdRef0;                            //!< FWD REF0
        VDENC_Reference_Picture_CMD                FwdRef1;                            //!< FWD REF1
        VDENC_Reference_Picture_CMD                FwdRef2;                            //!< FWD REF2
        VDENC_Reference_Picture_CMD                BwdRef0;                            //!< BWD REF0
        VDENC_Statistics_Streamout_CMD             VdencStatisticsStreamout;           //!< VDEnc Statistics Streamout
        VDENC_Down_Scaled_Reference_Picture_CMD    DsFwdRef04X;                        //!< DS FWD REF0 4X
        VDENC_Down_Scaled_Reference_Picture_CMD    DsFwdRef14X;                        //!< DS FWD REF1 4X
        VDENC_Down_Scaled_Reference_Picture_CMD    DsBwdRef04X;                        //!< DS BWD REF1 4X
        VDENC_Statistics_Streamout_CMD             VdencLcuPakObjCmdBuffer;            //!< VDEnc LCU PAK OBJ CMD Buffer
        VDENC_Down_Scaled_Reference_Picture_CMD    ScaledReferenceSurfaceStage1;       //!< Scaled Reference Surface (8X for HEVC/VP9, 4X for AVC)
        VDENC_Down_Scaled_Reference_Picture_CMD    ScaledReferenceSurfaceStage2;       //!< Scaled Reference Surface (8X for HEVC/VP9, not used for AVC)
        VDENC_Colocated_MV_Picture_CMD             Vp9SegmentationMapStreaminBuffer;   //!< VP9 Segmentation Map Streamin Buffer
        VDENC_Statistics_Streamout_CMD             Vp9SegmentationMapStreamoutBuffer;  //!< VP9 Segmentation Map Streamout Buffer
        union
        {
            //!< DWORD 61
            struct
            {
                uint32_t WeightsHistogramStreamoutOffset;  //!< Weights Histogram Streamout offset
            };
            uint32_t Value;
        } DW61;
        VDENC_Row_Store_Scratch_Buffer_Picture_CMD VdencTileRowStoreBuffer;                 //!< VDENC Tile Row store Buffer
        VDENC_Statistics_Streamout_CMD             VdencCumulativeCuCountStreamoutSurface;  //!< VDENC Cumulative CU count streamout surface
        VDENC_Statistics_Streamout_CMD             VdencPaletteModeStreamoutSurface;        //!< VDENC Palette Mode streamout surface
        VDENC_Statistics_Streamout_CMD             VDENC_PIPE_BUF_ADDR_STATE_DW71_73;
        VDENC_Statistics_Streamout_CMD             VDENC_PIPE_BUF_ADDR_STATE_DW74_76;
        VDENC_Row_Store_Scratch_Buffer_Picture_CMD IntraPredictionRowstoreBaseAddress;      //!< Intra Prediction RowStore Base Address
        VDENC_Statistics_Streamout_CMD             VDENC_PIPE_BUF_ADDR_STATE_DW80_82;
        VDENC_Colocated_MV_Picture_CMD             ColocatedMvAvcWriteBuffer;               //!< DW83..85, Colocated MV AVC Write Buffer
        VDENC_Down_Scaled_Reference_Picture_CMD    Additional4xDsFwdRef;                    //!< DW86..88, Additional x4 DS FWD REF

        //! \name Local enumerations

        enum SUBOPB
        {
            SUBOPB_VDENCPIPEBUFADDRSTATE = 4,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_PIPE_BUF_ADDR_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopb      = SUBOPB_VDENCPIPEBUFADDRSTATE;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
        }

        static const size_t dwSize   = 89;
        static const size_t byteSize = 356;
    };

    //!
    //! \brief VDENC_PIPE_MODE_SELECT
    //! \details
    //!     Specifies which codec and hardware module is being used to encode/decode
    //!     the video data, on a per-frame basis. The VDENC_PIPE_MODE_SELECT command
    //!     specifies which codec and hardware module is being used to encode/decode
    //!     the video data, on a per-frame basis. It also configures the hardware
    //!     pipeline according to the active encoder/decoder operating mode for
    //!     encoding/decoding the current picture.
    //!
    struct VDENC_PIPE_MODE_SELECT_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t StandardSelect : __CODEGEN_BITFIELD(0, 3);                                  //!< STANDARD_SELECT
                uint32_t ScalabilityMode : __CODEGEN_BITFIELD(4, 4);                                 //!< Scalability Mode
                uint32_t FrameStatisticsStreamOutEnable : __CODEGEN_BITFIELD(5, 5);                  //!< FRAME_STATISTICS_STREAM_OUT_ENABLE
                uint32_t VdencPakObjCmdStreamOutEnable : __CODEGEN_BITFIELD(6, 6);                   //!< VDEnc PAK_OBJ_CMD Stream-Out Enable
                uint32_t TlbPrefetchEnable : __CODEGEN_BITFIELD(7, 7);                               //!< TLB_PREFETCH_ENABLE
                uint32_t PakThresholdCheckEnable : __CODEGEN_BITFIELD(8, 8);                         //!< PAK_THRESHOLD_CHECK_ENABLE
                uint32_t VdencStreamInEnable : __CODEGEN_BITFIELD(9, 9);                             //!< VDENC_STREAM_IN_ENABLE
                uint32_t Downscaled8XWriteDisable : __CODEGEN_BITFIELD(10, 10);                      //!< DownScaled 8x write Disable
                uint32_t Downscaled4XWriteDisable : __CODEGEN_BITFIELD(11, 11);                      //!< DownScaled 4x write Disable
                uint32_t BitDepth : __CODEGEN_BITFIELD(12, 14);                                      //!< BIT_DEPTH
                uint32_t PakChromaSubSamplingType : __CODEGEN_BITFIELD(15, 16);                      //!< PAK_CHROMA_SUB_SAMPLING_TYPE
                uint32_t OutputRangeControlAfterColorSpaceConversion : __CODEGEN_BITFIELD(17, 17);   //!< output range control after color space conversion
                uint32_t IsRandomAccess : __CODEGEN_BITFIELD(18, 18);                                //!< Is random access B frame or not
                uint32_t Reserved51 : __CODEGEN_BITFIELD(19, 19);                                    //!< Reserved
                uint32_t RgbEncodingEnable : __CODEGEN_BITFIELD(20, 20);                             //!< RGB encoding enable
                uint32_t PrimaryChannelSelectionForRgbEncoding : __CODEGEN_BITFIELD(21, 22);         //!< PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING
                uint32_t FirstSecondaryChannelSelectionForRgbEncoding : __CODEGEN_BITFIELD(23, 24);  //!< FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING
                uint32_t TileReplayEnable : __CODEGEN_BITFIELD(25, 25);                              //!< Tile replay enable
                uint32_t StreamingBufferConfig : __CODEGEN_BITFIELD(26, 27);                         //!< Streaming buffer config
                uint32_t Reserved58 : __CODEGEN_BITFIELD(28, 31);                                    //!< Reserved
            };
            uint32_t Value;
        } DW1;
        union
        {
            //!< DWORD 2
            struct
            {
                uint32_t HmeRegionPreFetchenable : __CODEGEN_BITFIELD(0, 0);                         //!< HME_REGION_PRE_FETCHENABLE
                uint32_t Topprefetchenablemode : __CODEGEN_BITFIELD(1, 2);                           //!< TOPPREFETCHENABLEMODE
                uint32_t LeftpreFetchatwraparound : __CODEGEN_BITFIELD(3, 3);                        //!< LEFTPRE_FETCHATWRAPAROUND
                uint32_t Verticalshift32Minus1 : __CODEGEN_BITFIELD(4, 7);                           //!< VERTICALSHIFT32MINUS1
                uint32_t Hzshift32Minus1 : __CODEGEN_BITFIELD(8, 11);                                //!< HZSHIFT32MINUS1
                uint32_t Reserved76 : __CODEGEN_BITFIELD(12, 15);                                    //!< Reserved
                uint32_t NumVerticalReqMinus1 : __CODEGEN_BITFIELD(16, 19);                          //!< NUMVERTICALREQMINUS1
                uint32_t Numhzreqminus1 : __CODEGEN_BITFIELD(20, 23);                                //!< NUMHZREQMINUS1
                uint32_t PreFetchOffsetForReferenceIn16PixelIncrement : __CODEGEN_BITFIELD(24, 27);  //!< PRE_FETCH_OFFSET_FOR_REFERENCE_IN_16_PIXEL_INCREMENT
                uint32_t Reserved92 : __CODEGEN_BITFIELD(28, 31);                                    //!< Reserved
            };
            uint32_t Value;
        } DW2;
        union
        {
            //!< DWORD 3
            struct
            {
                uint32_t SourceLumaPackedDataTlbPreFetchenable : __CODEGEN_BITFIELD(0, 0);  //!< SOURCE_LUMAPACKED_DATA_TLB_PRE_FETCHENABLE
                uint32_t SourceChromaTlbPreFetchenable : __CODEGEN_BITFIELD(1, 1);          //!< SOURCE_CHROMA_TLB_PRE_FETCHENABLE
                uint32_t Reserved98 : __CODEGEN_BITFIELD(2, 3);                             //!< Reserved
                uint32_t Verticalshift32Minus1Src : __CODEGEN_BITFIELD(4, 7);               //!< VERTICALSHIFT32MINUS1SRC
                uint32_t Hzshift32Minus1Src : __CODEGEN_BITFIELD(8, 11);                    //!< HZSHIFT32MINUS1SRC
                uint32_t Reserved108 : __CODEGEN_BITFIELD(12, 15);                          //!< Reserved
                uint32_t Numverticalreqminus1Src : __CODEGEN_BITFIELD(16, 19);              //!< NUMVERTICALREQMINUS1SRC
                uint32_t Numhzreqminus1Src : __CODEGEN_BITFIELD(20, 23);                    //!< NUMHZREQMINUS1SRC
                uint32_t PreFetchoffsetforsource : __CODEGEN_BITFIELD(24, 27);              //!< PRE_FETCHOFFSETFORSOURCE
                uint32_t VDENC_PIPE_MODE_SELECT_DW3_BIT28 : __CODEGEN_BITFIELD(28, 31);
            };
            uint32_t Value;
        } DW3;
        union
        {
            struct
            {
                uint32_t Debugtilepassnum : __CODEGEN_BITFIELD(0, 3);                                  //!< DebugTilePassNum
                uint32_t Debugtilenum : __CODEGEN_BITFIELD(4, 11);                                     //!< DebugTileNum
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT12 : __CODEGEN_BITFIELD(12, 14);                //!<
                uint32_t Reserved_143 : __CODEGEN_BITFIELD(15, 15);                                    //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT16 : __CODEGEN_BITFIELD(16, 17);                //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT18 : __CODEGEN_BITFIELD(18, 19);                //!<
                uint32_t Reserved_148 : __CODEGEN_BITFIELD(20, 20);                                    //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT21 : __CODEGEN_BITFIELD(21, 21);                //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT22_XE_LPM_PLUS : __CODEGEN_BITFIELD(22, 23);    //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT24_XE_LPM_PLUS : __CODEGEN_BITFIELD(24, 25);    //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT26_XE_LPM_PLUS : __CODEGEN_BITFIELD(26, 27);    //!<
                uint32_t VDENC_PIPE_MODE_SELECT_DW4_BIT28_XE_LPM_PLUS : __CODEGEN_BITFIELD(28, 29);    //!<
                uint32_t Reserved_158 : __CODEGEN_BITFIELD(30, 31);                                    //!<
            };
            uint32_t Value;
        } DW4;
        union
        {
            struct
            {
                uint32_t FrameNumber : __CODEGEN_BITFIELD(0, 3);                          //!< Frame Number
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT4 : __CODEGEN_BITFIELD(4, 5);
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT6 : __CODEGEN_BITFIELD(6, 7);
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT8 : __CODEGEN_BITFIELD(8, 8);
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT9 : __CODEGEN_BITFIELD(9, 9);
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT10 : __CODEGEN_BITFIELD(10, 10);
                uint32_t CaptureMode : __CODEGEN_BITFIELD(11, 12);                        //!< CAPTURE_MODE
                uint32_t ParallelCaptureAndEncodeSessionId : __CODEGEN_BITFIELD(13, 15);  //!< PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT16 : __CODEGEN_BITFIELD(16, 16);
                uint32_t VDENC_PIPE_MODE_SELECT_DW5_BIT17 : __CODEGEN_BITFIELD(17, 17);
                uint32_t Reserved185 : __CODEGEN_BITFIELD(18, 23);                        //!< Reserved
                uint32_t TailPointerReadFrequency : __CODEGEN_BITFIELD(24, 31);           //!< Tail pointer read frequency
            };
            uint32_t Value;
        } DW5;

        //! \name Local enumerations

        enum SUBOPB
        {
            SUBOPB_VDENCPIPEMODESELECT = 0,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        enum STANDARD_SELECT
        {
            STANDARD_SELECT_AVC = 2,  //!< No additional details
        };

        //! \brief FRAME_STATISTICS_STREAM_OUT_ENABLE
        //! \details
        //!     This field controls whether the frame statistics stream-out is enabled.
        enum FRAME_STATISTICS_STREAM_OUT_ENABLE
        {
            FRAME_STATISTICS_STREAM_OUT_ENABLE_DISABLE = 0,  //!< No additional details
            FRAME_STATISTICS_STREAM_OUT_ENABLE_ENABLE  = 1,  //!< No additional details
        };

        //! \brief TLB_PREFETCH_ENABLE
        //! \details
        //!     This field controls whether TLB prefetching is enabled.
        enum TLB_PREFETCH_ENABLE
        {
            TLB_PREFETCH_ENABLE_DISABLE = 0,  //!< No additional details
            TLB_PREFETCH_ENABLE_ENABLE  = 1,  //!< No additional details
        };

        //! \brief PAK_THRESHOLD_CHECK_ENABLE
        //! \details
        //!     For AVC standard: This field controls whether VDEnc will check the
        //!     PAK indicator for bits overflow and terminates the slice. This mode is
        //!     called Dynamic Slice Mode. When this field is disabled, VDEnc is in
        //!     Static Slice Mode. It uses the driver programmed Slice Macroblock Height
        //!     Minus One to terminate the slice. This feature is also referred to as
        //!     slice size conformance.
        //!     For HEVC standard: This bit is used to enable dynamic slice size
        //!     control.
        enum PAK_THRESHOLD_CHECK_ENABLE
        {
            PAK_THRESHOLD_CHECK_ENABLE_DISABLESTATICSLICEMODE = 0,  //!< No additional details
            PAK_THRESHOLD_CHECK_ENABLE_ENABLEDYNAMICSLICEMODE = 1,  //!< No additional details
        };

        //! \brief VDENC_STREAM_IN_ENABLE
        //! \details
        //!     This field controls whether VDEnc will read the stream-in surface
        //!     that is programmed. Currently the stream-in surface has MB level QP,
        //!     ROI, predictors and MaxSize/TargetSizeinWordsMB parameters. The
        //!     individual enables for each of the fields is programmed in the
        //!     VDENC_IMG_STATE.
        //!     (ROI_Enable, Fwd/Predictor0 MV Enable, Bwd/Predictor1 MV Enable, MB
        //!     Level QP Enable, TargetSizeinWordsMB/MaxSizeinWordsMB Enable).
        //!     This bit is valid only in AVC mode. In HEVC / VP9 mode this bit is
        //!     reserved and should be set to zero.
        enum VDENC_STREAM_IN_ENABLE
        {
            VDENC_STREAM_IN_ENABLE_DISABLE = 0,  //!< No additional details
            VDENC_STREAM_IN_ENABLE_ENABLE  = 1,  //!< No additional details
        };

        //! \brief BIT_DEPTH
        //! \details
        //!     This parameter indicates the PAK bit depth. The valid values for this
        //!     are 0 / 2 in HEVC / VP9 standard. In AVC standard this field should be
        //!     set to 0.
        enum BIT_DEPTH
        {
            BIT_DEPTH_8BIT  = 0,  //!< No additional details
            BIT_DEPTH_10BIT = 2,  //!< No additional details
            BIT_DEPTH_12BIT = 3,  //!< No additional details
        };

        //! \brief PAK_CHROMA_SUB_SAMPLING_TYPE
        //! \details
        //!     This field is applicable only in HEVC and VP9. In AVC, this field is ignored.
        enum PAK_CHROMA_SUB_SAMPLING_TYPE
        {
            PAK_CHROMA_SUB_SAMPLING_TYPE_420   = 1,  //!< Used for Main8 and Main10 HEVC, VP9 profile0, AVC.
            PAK_CHROMA_SUB_SAMPLING_TYPE_4_4_4 = 3,  //!< HEVC RExt 444, VP9 444 profiles.
        };

        //! \brief PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING
        //! \details
        //!     In RGB encoding, any one of the channel could be primary. This field is
        //!     used for selcting primary channel
        enum PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING
        {
            PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED0 = 0,  //!< Channel R is primary channel
            PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED1 = 1,  //!< Channel G is primary channel.
            PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED2 = 2,  //!< Channel B is primary channel
        };

        //! \brief FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING
        //! \details
        //!     In RGB encoding, any one of the channel could be primary. This field is
        //!     used for selcting primary channel
        enum FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING
        {
            FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED0 = 0,  //!< Channel R is first secondary channel
            FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED1 = 1,  //!< Channel G is first secondary channel
            FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED2 = 2,  //!< Channel B is first secondary channel.
        };

        //! \brief HME_REGION_PRE_FETCHENABLE
        //! \details
        //!     When this bit is set, for all reference frames HME region pages are pre-fetched.
        enum HME_REGION_PRE_FETCHENABLE
        {
            HME_REGION_PRE_FETCHENABLE_UNNAMED0 = 0,  //!< No additional details
            HME_REGION_PRE_FETCHENABLE_UNNAMED1 = 1,  //!< No additional details
        };

        //! \brief TOPPREFETCHENABLEMODE
        //! \details
        //!     Top Pre-fetch enable Mode
        enum TOPPREFETCHENABLEMODE
        {
            TOPPREFETCHENABLEMODE_UNNAMED0 = 0,  //!< No additional details
            TOPPREFETCHENABLEMODE_UNNAMED1 = 1,  //!< No additional details
        };

        //! \brief LEFTPRE_FETCHATWRAPAROUND
        //! \details
        //!     Left pre-fetch enabled on wraparound
        enum LEFTPRE_FETCHATWRAPAROUND
        {
            LEFTPRE_FETCHATWRAPAROUND_UNNAMED1 = 1,  //!< No additional details
        };

        enum VERTICALSHIFT32MINUS1
        {
            VERTICALSHIFT32MINUS1_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief HZSHIFT32MINUS1
        //! \details
        //!     Horizontal_shift &gt;= LCU_size and Horizontal_shift prefetch_offset
        enum HZSHIFT32MINUS1
        {
            HZSHIFT32MINUS1_UNNAMED3 = 3,  //!< No additional details
        };

        //! \brief NUMHZREQMINUS1
        //! \details
        //!     Number of Vertical requests in each region for a constant horizontal position.
        enum NUMVERTICALREQMINUS1
        {
            NUMVERTICALREQMINUS1_UNNAMED11 = 11,  //!< No additional details
        };

        //! \brief NUMHZREQMINUS1
        //! \details
        //!     Number of Horizontal Requests minus 1 at row begining.
        enum NUMHZREQMINUS1
        {
            NUMHZREQMINUS1_UNNAMED2 = 2,  //!< No additional details
        };

        enum PRE_FETCH_OFFSET_FOR_REFERENCE_IN_16_PIXEL_INCREMENT
        {
            PRE_FETCH_OFFSET_FOR_REFERENCE_IN_16_PIXEL_INCREMENT_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief SOURCE_LUMAPACKED_DATA_TLB_PRE_FETCHENABLE
        //! \details
        //!     When this bit is set, Source Luma / Packed data TLB pre-fetches are
        //!     performed.
        enum SOURCE_LUMAPACKED_DATA_TLB_PRE_FETCHENABLE
        {
            SOURCE_LUMAPACKED_DATA_TLB_PRE_FETCHENABLE_UNNAMED0 = 0,  //!< No additional details
            SOURCE_LUMAPACKED_DATA_TLB_PRE_FETCHENABLE_UNNAMED1 = 1,  //!< No additional details
        };

        //! \brief SOURCE_CHROMA_TLB_PRE_FETCHENABLE
        //! \details
        //!     When this bit is set, Source Chroma TLB pre-fetches are performed.
        enum SOURCE_CHROMA_TLB_PRE_FETCHENABLE
        {
            SOURCE_CHROMA_TLB_PRE_FETCHENABLE_UNNAMED0 = 0,  //!< No additional details
            SOURCE_CHROMA_TLB_PRE_FETCHENABLE_UNNAMED1 = 1,  //!< No additional details
        };

        enum VERTICALSHIFT32MINUS1SRC
        {
            VERTICALSHIFT32MINUS1SRC_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief HZSHIFT32MINUS1SRC
        //! \details
        //!     Horizontal_shift &gt;= LCU_size and Horizontal_shift prefetch_offset
        enum HZSHIFT32MINUS1SRC
        {
            HZSHIFT32MINUS1SRC_UNNAMED0 = 0,  //!< No additional details
            HZSHIFT32MINUS1SRC_UNNAMED3 = 3,  //!< No additional details
        };

        //! \brief NUMVERTICALREQMINUS1SRC
        //! \details
        //!     Number of Horizontal requests Minus 1 for source
        enum NUMVERTICALREQMINUS1SRC
        {
            NUMVERTICALREQMINUS1SRC_UNNAMED0 = 0,  //!< This is the valid for AVC
            NUMVERTICALREQMINUS1SRC_UNNAMED1 = 1,  //!< This is the valid value for HEVC
        };

        //! \brief NUMHZREQMINUS1SRC
        //! \details
        //!     Number of Horizontal requests Minus 1 for source
        enum NUMHZREQMINUS1SRC
        {
            NUMHZREQMINUS1SRC_UNNAMED0 = 0,  //!< No additional details
        };

        //! \brief PRE_FETCHOFFSETFORSOURCE
        //! \details
        //!     Pre-fetch offset for Reference in 16 pixel increment.
        enum PRE_FETCHOFFSETFORSOURCE
        {
            PRE_FETCHOFFSETFORSOURCE_UNNAMED0  = 0,  //!< No additional details
            PRE_FETCHOFFSETFORSOURCE_UNNAMED_4 = 4,  //!< This value is applicable in HEVC mode
            PRE_FETCHOFFSETFORSOURCE_UNNAMED7  = 7,  //!< This Value is applicable in AVC mode
        };

        enum CAPTURE_MODE
        {
            CAPTURE_MODE_UNNAMED0 = 0,  //!< No Parallel capture
            CAPTURE_MODE_UNNAMED1 = 1,  //!< Parallel encode from Display overlay
            CAPTURE_MODE_CAMERA   = 2,  //!< Parallel encode from Camera Pipe
            CAPTURE_MODE_UNNAMED3 = 3,  //!< Reserved
        };

        enum STREAMING_BUFFER_CONFIG
        {
            STREAMING_BUFFER_UNSUPPORTED = 0,
            STREAMING_BUFFER_64          = 1,
            STREAMING_BUFFER_128         = 2,
            STREAMING_BUFFER_256         = 3,
        };

        enum PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID
        {
            PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID_UNNAMED0 = 0,  //!< Display tailpointer address location 00ED0h-00ED3h
            PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID_UNNAMED1 = 1,  //!< Display tailpointer address location 00ED4h-00ED7h
            PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID_UNNAMED2 = 2,  //!< Display tailpointer address location 00ED8h-00EDBh
            PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID_UNNAMED3 = 3,  //!< Display tailpointer address location 00EDCh-00EDFh
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_PIPE_MODE_SELECT_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopb      = SUBOPB_VDENCPIPEMODESELECT;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;

            DW1.FrameStatisticsStreamOutEnable               = FRAME_STATISTICS_STREAM_OUT_ENABLE_DISABLE;
            DW1.TlbPrefetchEnable                            = TLB_PREFETCH_ENABLE_DISABLE;
            DW1.PakThresholdCheckEnable                      = PAK_THRESHOLD_CHECK_ENABLE_DISABLESTATICSLICEMODE;
            DW1.VdencStreamInEnable                          = VDENC_STREAM_IN_ENABLE_DISABLE;
            DW1.BitDepth                                     = BIT_DEPTH_8BIT;
            DW1.PrimaryChannelSelectionForRgbEncoding        = PRIMARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED1;
            DW1.FirstSecondaryChannelSelectionForRgbEncoding = FIRST_SECONDARY_CHANNEL_SELECTION_FOR_RGB_ENCODING_UNNAMED2;
            DW1.StreamingBufferConfig                        = STREAMING_BUFFER_UNSUPPORTED;

            DW2.HmeRegionPreFetchenable                      = HME_REGION_PRE_FETCHENABLE_UNNAMED1;
            DW2.Topprefetchenablemode                        = TOPPREFETCHENABLEMODE_UNNAMED0;
            DW2.LeftpreFetchatwraparound                     = LEFTPRE_FETCHATWRAPAROUND_UNNAMED1;
            DW2.Verticalshift32Minus1                        = VERTICALSHIFT32MINUS1_UNNAMED0;
            DW2.Hzshift32Minus1                              = HZSHIFT32MINUS1_UNNAMED3;
            DW2.NumVerticalReqMinus1                         = NUMVERTICALREQMINUS1_UNNAMED11;
            DW2.Numhzreqminus1                               = NUMHZREQMINUS1_UNNAMED2;
            DW2.PreFetchOffsetForReferenceIn16PixelIncrement = PRE_FETCH_OFFSET_FOR_REFERENCE_IN_16_PIXEL_INCREMENT_UNNAMED0;

            DW3.SourceLumaPackedDataTlbPreFetchenable = SOURCE_LUMAPACKED_DATA_TLB_PRE_FETCHENABLE_UNNAMED0;
            DW3.SourceChromaTlbPreFetchenable         = SOURCE_CHROMA_TLB_PRE_FETCHENABLE_UNNAMED0;
            DW3.Verticalshift32Minus1Src              = VERTICALSHIFT32MINUS1SRC_UNNAMED0;
            DW3.Hzshift32Minus1Src                    = HZSHIFT32MINUS1SRC_UNNAMED0;
            DW3.Numverticalreqminus1Src               = NUMVERTICALREQMINUS1SRC_UNNAMED0;
            DW3.Numhzreqminus1Src                     = NUMHZREQMINUS1SRC_UNNAMED0;
            DW3.PreFetchoffsetforsource               = PRE_FETCHOFFSETFORSOURCE_UNNAMED0;

            DW5.CaptureMode                       = CAPTURE_MODE_UNNAMED0;
            DW5.ParallelCaptureAndEncodeSessionId = PARALLEL_CAPTURE_AND_ENCODE_SESSION_ID_UNNAMED0;
        }

        static const size_t dwSize   = 6;
        static const size_t byteSize = 24;
    };

    //!
    //! \brief VDENC_REF_SURFACE_STATE
    //! \details
    //!     This command specifies the surface state parameters for the normal
    //!     reference surfaces.
    //!
    struct VDENC_REF_SURFACE_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t SurfaceId : __CODEGEN_BITFIELD(0, 2);  //!< Surface ID
                uint32_t Reserved : __CODEGEN_BITFIELD(3, 31);  //!< Reserved
            };
            uint32_t Value;
        } DW1;
        VDENC_Surface_State_Fields_CMD Dwords25;  //!< Dwords 2..5

        //! \name Local enumerations

        enum SUBOPB
        {
            SUBOPB_VDENCREFSURFACESTATE = 2,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_REF_SURFACE_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopb      = SUBOPB_VDENCREFSURFACESTATE;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
        }

        static const size_t dwSize   = 6;
        static const size_t byteSize = 24;
    };

    //!
    //! \brief VDENC_SRC_SURFACE_STATE
    //! \details
    //!     This command specifies the uncompressed original input picture to be
    //!     encoded. The actual base address is defined in the
    //!     VDENC_PIPE_BUF_ADDR_STATE. Pitch can be wider than the Picture Width in
    //!     pixels and garbage will be there at the end of each line. The following
    //!     describes all the different formats that are supported in WLV+ VDEnc:
    //!     NV12 - 4:2:0 only; UV interleaved; Full Pitch, U and V offset is set to
    //!     0 (the only format supported for video codec); vertical UV offset is MB
    //!     aligned; UV xoffsets = 0.
    //!       This surface state here is identical to the Surface State for
    //!     deinterlace and sample_8x8 messages described in the Shared Function
    //!     Volume and Sampler Chapter. For non pixel data, such as row stores, DMV
    //!     and streamin/out, a linear buffer is employed. For row stores, the H/W
    //!     is designed to guarantee legal memory accesses (read and write). For the
    //!     remaining cases, indirect object base address, indirect object address
    //!     upper bound, object data start address (offset) and object data length
    //!     are used to fully specified their corresponding buffer. This mechanism
    //!     is chosen over the pixel surface type because of their variable record
    //!     sizes. All row store surfaces are linear surface. Their addresses are
    //!     programmed in VDEnc_Pipe_Buf_Base_State.
    //!
    struct VDENC_SRC_SURFACE_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t Reserved32;  //!< Reserved
            };
            uint32_t Value;
        } DW1;
        VDENC_Surface_State_Fields_CMD Dwords25;  //!< Dwords 2..5

        //! \name Local enumerations

        enum SUBOPB
        {
            SUBOPB_VDENCSRCSURFACESTATE = 1,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_SRC_SURFACE_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordLength = __CODEGEN_OP_LENGTH(dwSize);
            DW0.Subopb      = SUBOPB_VDENCSRCSURFACESTATE;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
        }

        static const size_t dwSize   = 6;
        static const size_t byteSize = 24;
    };

    //!
    //! \brief VDENC_WALKER_STATE
    //! \details
    //!
    //!
    struct VDENC_WALKER_STATE_CMD
    {
        union
        {
            struct
            {
                uint32_t Length : __CODEGEN_BITFIELD(0, 11);        //!< LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            struct
            {
                uint32_t MbLcuStartYPosition : __CODEGEN_BITFIELD(0, 8);    //!< MB/LCU Start Y Position
                uint32_t Reserved41 : __CODEGEN_BITFIELD(9, 15);            //!< Reserved
                uint32_t MbLcuStartXPosition : __CODEGEN_BITFIELD(16, 24);  //!< MB/LCU Start X Position
                uint32_t Reserved57 : __CODEGEN_BITFIELD(25, 27);           //!< Reserved
                uint32_t FirstSuperSlice : __CODEGEN_BITFIELD(28, 28);      //!< First Super Slice
                uint32_t Reserved61 : __CODEGEN_BITFIELD(29, 31);           //!< Reserved
            };
            uint32_t Value;
        } DW1;
        union
        {
            struct
            {
                uint32_t NextsliceMbStartYPosition : __CODEGEN_BITFIELD(0, 9);       //!< NextSlice MB Start Y Position
                uint32_t Reserved74 : __CODEGEN_BITFIELD(10, 15);                    //!< Reserved
                uint32_t NextsliceMbLcuStartXPosition : __CODEGEN_BITFIELD(16, 25);  //!< NextSlice MB/LCU Start X Position
                uint32_t Reserved90 : __CODEGEN_BITFIELD(26, 31);                    //!< Reserved
            };
            uint32_t Value;
        } DW2;

        //! \name Local enumerations

        enum LENGTH
        {
            LENGTH_UNNAMED1 = 1,  //!< No additional details
        };

        enum SUBOPB
        {
            SUBOPB_VDENCWALKERSTATE = 7,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_WALKER_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.Length      = LENGTH_UNNAMED1;
            DW0.Subopb      = SUBOPB_VDENCWALKERSTATE;
            DW0.Subopa      = SUBOPA_UNNAMED0;
            DW0.Opcode      = OPCODE_VDENCPIPE;
            DW0.Pipeline    = PIPELINE_MFXCOMMON;
            DW0.CommandType = COMMAND_TYPE_PARALLELVIDEOPIPE;
        }

        static const size_t dwSize   = 3;
        static const size_t byteSize = 12;
    };

    //!
    //! \brief VDENC_CONTROL_STATE
    //! \details
    //!
    //!
    struct VDENC_CONTROL_STATE_CMD
    {
        union
        {
            //!< DWORD 0
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);               //!< Dword Length
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);               //!< Reserved
                uint32_t MediaInstructionCommand : __CODEGEN_BITFIELD(16, 22);  //!< Media Instruction Command
                uint32_t MediaInstructionOpcode : __CODEGEN_BITFIELD(23, 26);   //!< Media Instruction Opcode
                uint32_t PipelineType : __CODEGEN_BITFIELD(27, 28);             //!< Pipeline Type
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);              //!< Command Type
            };
            uint32_t Value;
        } DW0;
        union
        {
            //!< DWORD 1
            struct
            {
                uint32_t Reserved32 : __CODEGEN_BITFIELD(0, 0);           //!< Reserved
                uint32_t VdencInitialization : __CODEGEN_BITFIELD(1, 1);  //!< VDenc Initialization
                uint32_t Reserved34 : __CODEGEN_BITFIELD(2, 31);          //!< Reserved
            };
            uint32_t Value;
        } DW1;

        //! \name Local enumerations

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_CONTROL_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.DwordLength             = __CODEGEN_OP_LENGTH(dwSize);
            DW0.MediaInstructionCommand = 0xB;
            DW0.MediaInstructionOpcode  = 0x1;
            DW0.PipelineType            = 0x2;
            DW0.CommandType             = 0x3;
        }

        static const size_t dwSize   = 2;
        static const size_t byteSize = 8;
    };

    //!
    //! \brief VDENC_AVC_SLICE_STATE
    //! \details
    //!
    //!
    struct VDENC_AVC_SLICE_STATE_CMD
    {
        union
        {
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            struct
            {
                uint32_t RoundIntra : __CODEGEN_BITFIELD(0, 2);        //!< RoundIntra
                uint32_t RoundIntraEnable : __CODEGEN_BITFIELD(3, 3);  //!< RoundIntraEnable
                uint32_t RoundInter : __CODEGEN_BITFIELD(4, 6);        //!< RoundInter
                uint32_t RoundInterEnable : __CODEGEN_BITFIELD(7, 7);  //!< RoundInterEnable
                uint32_t Reserved32 : __CODEGEN_BITFIELD(8, 31);       //!< Reserved
            };
            uint32_t Value;
        } DW1;
        union
        {
            struct
            {
                uint32_t Reserved64;  //!< Reserved
            };
            uint32_t Value;
        } DW2;
        union
        {
            struct
            {
                uint32_t Log2WeightDenomLuma : __CODEGEN_BITFIELD(0, 2);  //!< Log 2 Weight Denom Luma
                uint32_t Reserved99 : __CODEGEN_BITFIELD(3, 31);          //!< Reserved
            };
            uint32_t Value;
        } DW3;

        //! \name Local enumerations

        enum SUBOPB
        {
            SUBOPB_VDENCAVCSLICESTATE = 12,  //!< No additional details
        };

        enum SUBOPA
        {
            SUBOPA_UNNAMED0 = 0,  //!< No additional details
        };

        enum OPCODE
        {
            OPCODE_VDENCPIPE = 1,  //!< No additional details
        };

        enum PIPELINE
        {
            PIPELINE_MFXCOMMON = 2,  //!< No additional details
        };

        enum COMMAND_TYPE
        {
            COMMAND_TYPE_PARALLELVIDEOPIPE = 3,  //!< No additional details
        };

        //! \name Initializations

        //! \brief Explicit member initialization function
        VDENC_AVC_SLICE_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.Value = 0x708c0002;
        }

        static const size_t dwSize   = 4;
        static const size_t byteSize = 16;
    };

    struct VDENC_HEVC_VP9_TILE_SLICE_STATE_CMD
    {
        union
        {
            struct
            {
                uint32_t DwordLength : __CODEGEN_BITFIELD(0, 11);   //!< DWORD_LENGTH
                uint32_t Reserved12 : __CODEGEN_BITFIELD(12, 15);   //!< Reserved
                uint32_t Subopb : __CODEGEN_BITFIELD(16, 20);       //!< SUBOPB
                uint32_t Subopa : __CODEGEN_BITFIELD(21, 22);       //!< SUBOPA
                uint32_t Opcode : __CODEGEN_BITFIELD(23, 26);       //!< OPCODE
                uint32_t Pipeline : __CODEGEN_BITFIELD(27, 28);     //!< PIPELINE
                uint32_t CommandType : __CODEGEN_BITFIELD(29, 31);  //!< COMMAND_TYPE
            };
            uint32_t Value;
        } DW0;
        union
        {
            struct
            {
                uint32_t Reserved32;  //!< Reserved
            };
            uint32_t Value;
        } DW1;
        union
        {
            struct
            {
                uint32_t Reserved64;  //!< Reserved
            };
            uint32_t Value;
        } DW2;
        union
        {
            struct
            {
                uint32_t Log2WeightDenomLuma : __CODEGEN_BITFIELD(0, 2);         //!< Log 2 Weight Denom Luma
                uint32_t Reserved99 : __CODEGEN_BITFIELD(3, 3);                  //!< Reserved
                uint32_t HevcVp9Log2WeightDenomLuma : __CODEGEN_BITFIELD(4, 6);  //!< HEVC/VP9 Log 2 Weight Denom Luma
                uint32_t Reserved103 : __CODEGEN_BITFIELD(7, 8);                 //!< Reserved
                uint32_t NumParEngine : __CODEGEN_BITFIELD(9, 10);               //!< NUM_PAR_ENGINE
                uint32_t Reserved107 : __CODEGEN_BITFIELD(11, 15);               //!< Reserved
                uint32_t TileRowStoreSelect : __CODEGEN_BITFIELD(16, 16);        //!< Tile Row store Select
                uint32_t Log2WeightDenomChroma : __CODEGEN_BITFIELD(17, 19);     //!< Log 2 Weight Denom Chroma
                uint32_t Reserved113 : __CODEGEN_BITFIELD(20, 23);               //!< Reserved
                uint32_t TileNumber : __CODEGEN_BITFIELD(24, 31);                //!< Tile number
            };
            uint32_t Value;
        } DW3;
        union
        {
            struct
            {
                uint32_t TileStartCtbY : __CODEGEN_BITFIELD(0, 15);   //!< Tile Start CTB-Y
                uint32_t TileStartCtbX : __CODEGEN_BITFIELD(16, 31);  //!< Tile Start CTB-X
            };
            uint32_t Value;
        } DW4;
        union
        {
            struct
            {
                uint32_t TileWidth : __CODEGEN_BITFIELD(0, 15);    //!< Tile Width
                uint32_t TileHeight : __CODEGEN_BITFIELD(16, 31);  //!< Tile Height
            };
            uint32_t Value;
        } DW5;
        union
        {
            struct
            {
                uint32_t StreaminOffsetEnable : __CODEGEN_BITFIELD(0, 0);  //!< Streamin Offset enable
                uint32_t Reserved193 : __CODEGEN_BITFIELD(1, 5);           //!< Reserved
                uint32_t TileStreaminOffset : __CODEGEN_BITFIELD(6, 31);   //!< Tile Streamin Offset
            };
            uint32_t Value;
        } DW6;
        union
        {
            struct
            {
                uint32_t RowStoreOffsetEnable : __CODEGEN_BITFIELD(0, 0);  //!< Row store Offset enable
                uint32_t Reserved225 : __CODEGEN_BITFIELD(1, 5);           //!< Reserved
                uint32_t TileRowstoreOffset : __CODEGEN_BITFIELD(6, 31);   //!< Tile Rowstore Offset
            };
            uint32_t Value;
        } DW7;
        union
        {
            struct
            {
                uint32_t TileStreamoutOffsetEnable : __CODEGEN_BITFIELD(0, 0);  //!< Tile streamout offset enable
                uint32_t Reserved257 : __CODEGEN_BITFIELD(1, 5);                //!< Reserved
                uint32_t TileStreamoutOffset : __CODEGEN_BITFIELD(6, 31);       //!< Tile streamout offset
            };
            uint32_t Value;
        } DW8;
        union
        {
            struct
            {
                uint32_t LcuStreamOutOffsetEnable : __CODEGEN_BITFIELD(0, 0);  //!< LCU stream out offset enable
                uint32_t Reserved289 : __CODEGEN_BITFIELD(1, 5);               //!< Reserved
                uint32_t TileLcuStreamOutOffset : __CODEGEN_BITFIELD(6, 31);   //!< Tile LCU stream out offset
            };
            uint32_t Value;
        } DW9;
        union
        {
            struct
            {
                uint32_t Reserved320;  //!< Reserved
            };
            uint32_t Value;
        } DW10;
        union
        {
            struct
            {
                uint32_t DeltaQp : __CODEGEN_BITFIELD(0, 7);                        //!< DELTA_QP
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW11_BIT8 : __CODEGEN_BITFIELD(8, 17);
                uint32_t Reserved370 : __CODEGEN_BITFIELD(18, 31);                  //!< Reserved
            };
            uint32_t Value;
        } DW11;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW12_BIT0 : __CODEGEN_BITFIELD(0, 2);
                uint32_t Reserved387 : __CODEGEN_BITFIELD(3, 7);                       //!< Reserved
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW12_BIT8 : __CODEGEN_BITFIELD(8, 15);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW12_BIT16 : __CODEGEN_BITFIELD(16, 17);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW12_BIT18 : __CODEGEN_BITFIELD(18, 22);
                uint32_t Reserved407 : __CODEGEN_BITFIELD(23, 23);                     //!< Reserved
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW12_BIT24 : __CODEGEN_BITFIELD(24, 25);
                uint32_t PaletteModeEnable : __CODEGEN_BITFIELD(26, 26);               //!< Palette Mode Enable
                uint32_t IbcControl : __CODEGEN_BITFIELD(27, 28);                      //!< IBC_CONTROL
                uint32_t Reserved413 : __CODEGEN_BITFIELD(29, 31);                     //!< Reserved
            };
            uint32_t Value;
        } DW12;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW13_BIT0 : __CODEGEN_BITFIELD(0, 9);
                uint32_t Reserved426 : __CODEGEN_BITFIELD(10, 15);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW13_BIT16 : __CODEGEN_BITFIELD(16, 25);
                uint32_t Reserved442 : __CODEGEN_BITFIELD(26, 31);
            };
            uint32_t Value;
        } DW13;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW14_BIT0 : __CODEGEN_BITFIELD(0, 5);
                uint32_t Reserved454 : __CODEGEN_BITFIELD(6, 7);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW14_BIT8 : __CODEGEN_BITFIELD(8, 13);
                uint32_t Reserved462 : __CODEGEN_BITFIELD(14, 15);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW14_BIT16 : __CODEGEN_BITFIELD(16, 20);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW14_BIT21 : __CODEGEN_BITFIELD(21, 22);
                uint32_t Reserved471 : __CODEGEN_BITFIELD(23, 23);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW14_BIT24 : __CODEGEN_BITFIELD(24, 30);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW14_BIT31 : __CODEGEN_BITFIELD(31, 31);
            };
            uint32_t Value;
        } DW14;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW15_BIT0 : __CODEGEN_BITFIELD(0, 9);
                uint32_t Reserved490 : __CODEGEN_BITFIELD(10, 15);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW15_BIT16 : __CODEGEN_BITFIELD(16, 31);
            };
            uint32_t Value;
        } DW15;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT0 : __CODEGEN_BITFIELD(0, 5);
                uint32_t Reserved518 : __CODEGEN_BITFIELD(6, 7);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT8 : __CODEGEN_BITFIELD(8, 13);
                uint32_t Reserved526 : __CODEGEN_BITFIELD(14, 15);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT16 : __CODEGEN_BITFIELD(16, 21);
                uint32_t Reserved534 : __CODEGEN_BITFIELD(22, 23);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT24 : __CODEGEN_BITFIELD(24, 28);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT29 : __CODEGEN_BITFIELD(29, 29);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT30 : __CODEGEN_BITFIELD(30, 30);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW16_BIT31 : __CODEGEN_BITFIELD(31, 31);
            };
            uint32_t Value;
        } DW16;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW17_BIT0 : __CODEGEN_BITFIELD(0, 0);
                uint32_t Reserved545 : __CODEGEN_BITFIELD(1, 5);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW17_BIT6 : __CODEGEN_BITFIELD(6, 31);
            };
            uint32_t Value;
        } DW17;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW18_BIT0 : __CODEGEN_BITFIELD(0, 0);
                uint32_t Reserved577 : __CODEGEN_BITFIELD(1, 5);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW18_BIT6 : __CODEGEN_BITFIELD(6, 31);
            };
            uint32_t Value;
        } DW18;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW19_BIT0;
            };
            uint32_t Value;
        } DW19;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW20_BIT0;
            };
            uint32_t Value;
        } DW20;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW21_BIT0;
            };
            uint32_t Value;
        } DW21;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW22_BIT0;
            };
            uint32_t Value;
        } DW22;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW23_BIT0;
            };
            uint32_t Value;
        } DW23;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW24_BIT0;
            };
            uint32_t Value;
        } DW24;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW25_BIT0;
            };
            uint32_t Value;
        } DW25;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW26_BIT0;
            };
            uint32_t Value;
        } DW26;
        union
        {
            struct
            {
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW27_BIT0 : __CODEGEN_BITFIELD(0, 0);
                uint32_t Reserved15 : __CODEGEN_BITFIELD(1, 5);
                uint32_t VDENC_HEVC_VP9_TILE_SLICE_STATE_DW27_BIT6 : __CODEGEN_BITFIELD(6, 31);
            };
            uint32_t Value;
        } DW27;

        //! \brief Explicit member initialization function
        VDENC_HEVC_VP9_TILE_SLICE_STATE_CMD()
        {
            MOS_ZeroMemory(this, sizeof(*this));

            DW0.Value = 0x708d001a;

            DW14.Value = 0x3f400000;

            DW16.Value = 0x003f3f3f;
        }

        static const size_t dwSize   = 28;
        static const size_t byteSize = 112;
    };

    using VDENC_CMD1_CMD = _VDENC_CMD1_CMD;
    using VDENC_CMD2_CMD = _VDENC_CMD2_CMD;
    using VDENC_CMD3_CMD = _VDENC_CMD3_CMD;
    using VDENC_AVC_IMG_STATE_CMD = _VDENC_AVC_IMG_STATE_CMD;
};
}  // namespace v0
}  // namespace xe_lpm_plus_base
}  // namespace vdenc
}  // namespace vdbox
}  // namespace mhw

#pragma pack()

#endif  // __MHW_VDBOX_VDENC_HWCMD_XE_LPM_PLUS_H__
